phcore翔是什么意思么
点击联系发帖人
时间:2012-05-27 07:16
近期Core-M很热闹,偷来几张伟彦PH103的拆机图_win8平板吧_百度贴吧
&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&签到排名:今日本吧第个签到,本吧因你更精彩,明天继续来努力!
本吧签到人数:0成为超级会员,使用一键签到本月漏签0次!成为超级会员,赠送8张补签卡连续签到:天&&累计签到:天超级会员单次开通12个月以上,赠送连续签到卡3张
关注:105,730贴子:
近期Core-M很热闹,偷来几张伟彦PH103的拆机图收藏
伟彦近期在贴吧很活跃,有用户有水军,貌似跟WIN8贴吧吧主也准备要搞什么103收发活动。市场上关于Core-M产品的消息漫天飞,一些不职业的写手连价格都没写就敢宣称性价比高,也是醉的不轻。本人近期写了很多深圳厂商的内部信息,这些信息对于消费者而言应该算是比较新鲜的,有人说好,也有人表示怀疑,陆续收到一些厂商要求不要扒皮太狠的私信。所以以后挑好听的说,毕竟大家买东西图的是个爽。为了写稿子,跟几个厂商的相关工作人员走的比较近(为了挖料我也是蛮拼),本来想多了解一些Core-M产品的信息,找了很多人也拿不到更多的信息,有的说近期要发布但开售时间不知道,有的讳深莫测给不出信息,伟彦官群倒是泄了几张图,我偷过来让大家看看伟彦正在忙活的发布会要公布的PH103工程机的内部做工到底怎样。伟彦官群泄密开售时间据说是定在发布会之后,从他们官方的时间表来看,应该很快就发布了。不过听他们官方说,将有意不当第一个发布Core-M产品的国产厂商,一来要看竞品的价格策略自己好获得后发优势,二来说是第一代和第二代产品因为发售时间和交货时间太久带来不少消费者吐槽这次憋着备足货再开售。。反正从我们消费者的角度来看,同样做工同样配置谁价格好谁有货肯定先买谁。下面是来自伟彦官群的103工程机泄密图,估计跟正式产品还有一些差距,大家一起来看看吧,毕竟是Core-M产品的业界第一张拆机图:看上去还算整齐,上半部是主板,下半部是电池,看上去主板又是所谓的单面设计,连接线用的是导线和连接器,没像窄板那样用胶带贴一下应付。尼玛,看得好眼花,跟BayTrail内部的状况实在不同。两根粗线连接到底部,难道底部也有什么扩展??看来中间那个就是Core-M的阵容了,CPU和GPU是分开设计的,也不同于ATOM芯片。那上面4个应该就是内存条了,三星的4G内存?DDR3L 13000MHZ?要是用1600MHZ就更好了。这就是伟彦102以来伟彦一直引以为豪的航空级铝镁合金?百度脑补了一下,铝镁合金在保持足够的坚固度基础上质量轻,不会增加太多重量。看来103也用了这个所谓的航空级铝镁合金的防滚跌架。这个贴在屏幕后面的黑色的,应该就是伟彦官方说的麦拉,麦拉据说可以避免主板元器件阵脚对屏幕的压迫、可以避免信号干扰,还能将主板的温度隔离开来不对液晶屏造成影响,还能避免屏幕的牛顿环(水波纹)出现。看来伟彦103用4G内存应该是铁板钉钉子的事了,不知道会用64G、128G、256G还是512G的硬盘呢?用eMMC还是用SSD呢?高清屏还是分辨率呢?价格会不会如业内认为的高于窄板低于一线厂商呢?看来2015年又是一场恶战啊,谁能笑到最后呢?一起等等看好了。
顶 话说你不单单是爱好者这么简单吧?
我操10.1以下的无望了!哥,乐了!!
留名,前排
写的不错。支持!
不错!其实128emmc加就行了
据说伟彦背景深不可测
散热怎么样,是传说中的铝板散热吗?
伟彦想后发制人,打价格战?很好,这个我喜欢
刘备:军师,此次伐魏你有何妙计?
机子实际性能评测还没有吗
回复 阮岸庆 :
话说这做工怎么样?这种拆机和bt板结构不一样,不好分辨
看到这标题醉了
还有感觉后期应该是1600mhz的内存。
又见牛人留贴,火速顶啊。若是以后专说好话,怕不是被收编了?
坐等surfacepro4
---xboxlive:zzj1988。求好友
@超级硬件爱好者
华为mu736亮了。
都用上了华为,价格肯定就低不了了,到时候卖个三四千你怕不怕?怕不怕?
lz挺专业啊,最近挺高产啊。话说苦逼的cm好像要4k是吗!
大神这么神通广大,能不能帮忙打听一下OMAZ这个牌子的来龙去脉?
那个core m CPU和GPU是集成在一起的,不是分开设计的,都在那个长条形里面,铝片散热还是不错,整体设计感觉可以接受。。。。。
联想、微软这些都用蓝色主板,伟彦用绿色主板还是为了控制成本啊
关键是价位和铺货
登录百度帐号推荐应用
为兴趣而生,贴吧更懂你。或钟志远_百度百科
本词条缺少名片图,补充相关内容使词条更完整,还能快速升级,赶紧来吧!
钟志远 1974年生于江西省安远县,苏州大学特聘教授,国家杰出青年基金获得者,江苏特聘教授。苏州大学生物医用高分子材料重点实验室主任,江苏省先进功能高分子材料设计及应用重点实验室副主任。2002年荷兰屯特大学(University of Twente) 获博士学位。年荷兰屯特大学任助理教授。2007年4月起受聘为苏州大学特聘教授。[1]
钟志远简介
钟志远 男1974年2月生于江西省安远县,苏州大学特聘教授,国家杰出青年基金获得者,江苏特聘教授,德国亥姆霍兹国家究中心生物材料研究所洪堡客座教授,柏林自由大学洪堡客座教授。苏州大学生物医用高分子材料重点实验室主任,江苏省先进功能高分子材料设计及应用重点实验室副主任。1995年吉林工业大学(现吉林大学)获学士学位,1998年中国科学院长春应用化学研究所获硕士学位(导师:景遐斌研究员),2002年荷兰屯特大学(University of Twente) 获博士学位(导师:Jan Feijen 教授)。年荷兰屯特大学任助理教授。月美国犹他大学药学院访问学者。2007年4月起受聘为苏州大学特聘教授。年担任苏州工业园区生物产业发展有限公司(苏州生物纳米园)副总裁。
担任Journal Controlled Release (Elsevier),Journal of Materials Chemistry B (RSC),Biomacromolecules (ACS),Journal Biomaterials Science, Polymer Edition (Talor & Francis)等国际著名期刊编委,《中国科学:化学》英文刊SCIENCE CHINA Chemistry(Springer)青年工作委员会委员,《药学学报》英文刊Acta Pharmaceutica Sinica B (Elsevier) 编委,Journal of Controlled Release客座主编,第一、第二和第三届新型高分子材料与控制释放国际会议(SIPCD ,2014)执行组委会主席,美国材料研究学会2013年春季年会“多功能生物材料分会”共同主席,国家自然科学基金委员会专家评审组专家,中国材料研究学会高分子材料与工程分会常务理事等学术兼职。
在国际主流期刊如Prog. Polym. Sci., Nano Today, Angew. Chem. Int. Ed., J. Am. Chem. Soc., Biomaterials, J. Control. Release, Macromolecules, Biomacromolecules, J. Mater. Chem., Nanomedicine等上发表论文120多篇,2篇论文入选“中国百篇最具影响国际学术论文”,论文共被引用5800多次,H-因子41。近几年,应邀在国际学术会议上做邀请报告40多次。现主持3项国家自然科学基金项目和2项国际公司合作项目。获得的荣誉奖励包括:美国化学会期刊部和高分子委员会颁发的“2014年生物大分子/大分子青年研究者奖”、德国洪堡基金会“贝塞尔研究奖”(2013)、日本药物释放系统学会和美国控制释放学会共同颁发的“亚洲药物释放系统突破技术奖”(2013)、江苏特聘教授(2013)、江苏省333工程第二层次培养对象(2013)、苏州市十佳魅力科技人物(2013)、国家杰出青年科学基金获得者(2012)等。[2]
钟志远学习和工作经历
95.07 吉林工业大学(现吉林大学)应用化学系
98.07 中国科学院长春应用化学研究所硕士生(导师:景遐斌研究员)
02.10 荷兰屯特大学(University of Twente) 博士生(导师:Jan Feijen 教授)
07.04 荷兰屯特大学(University of Twente)生物医学技术研究所及高分子化学和生物材料系助理教授
04.11 美国犹他大学(University of Utah) 药学院 访问学者(Sung Wan Kim教授研究组)
2007.04—至今苏州大学生物医用高分子材料重点实验室苏州大学特聘教授、实验室主任:
2010.12—至今江苏省先进功能高分子材料设计及应用重点实验室副主任
12.08苏州工业园区生物产业发展有限公司(苏州生物纳米园)副总裁[2]
钟志远学术和社会兼职
1. 首届新型高分子材料与控制释放国际会议(Symposium on Innovative Polymers for Controlled Delivery, SIPCD 年9月14-17日, 苏州)执行组委会主席.
2. 第二届新型高分子材料与控制释放国际会议(2 Symposium on Innovative Polymers for Controlled Delivery, SIPCD 年9月11-14日, 苏州)执行组委会主席.
3. 第三届新型高分子材料与控制释放国际会议(3 Symposium on Innovative Polymers for Controlled Delivery, SIPCD 年9月16-19日, 苏州)执行组委会主席
4.美国材料化学学会2013年春季年会“Multifunctional Biomaterials” Symposium (MRS Spring 2013 Meeting, April 1-5, 2013, San Francisco, USA)共同主席.
5.Journal of Controlled Release客座主编((J. Control. Release, Volume 152, Issue 1, 30 May 2011).
6.Journal of Controlled Release客座主编(J. Control. Release, Volume 169, Issue 3, 10 August 2013).
7. 美国化学会期刊Biomacromolecules编委(2011.1-).
8. Elsevier期刊Journal of Controlled Release编委(2012.5-).
9.Journal of Biomaterials Science, Polymer Edition编委(2012.8-).
10. 英国皇家化学会期刊Journal of Materials Chemistry B顾问(2014.1-).
11. 《中国科学-化学》英文刊SCIENCE CHINA Chemistry (Springer)青年工作委员会委员(2014.3-).
12.《药学学报》英文刊Acta Pharmaceutica Sinica B (Elsevier)编委(2014.7-).
13.国家自然科学基金委员会专家评审组专家(2012-)。
14.德国亥姆霍兹国家究中心生物材料研究所洪堡客座教授(2013 - 2015)
15.柏林自由大学洪堡客座教授(2013 - 2015)
16.中国材料研究学会高分子材料与工程分会常务理事(2014.7-)
17.江苏省青年联合会第十和第十一届委员会委员[2]
钟志远主要研究兴趣
1) 功能性生物可降解高分子材料
2) 响应性聚合物纳米载体(胶束、囊泡、纳米粒)
3) 肿瘤的靶向治疗
4) 可注射性水凝胶和微凝胶
5) 生物纳米载体(聚合物囊泡和胶束)及肿瘤靶向治疗[2]
钟志远荣誉奖励
1. 美国化学会期刊部和高分子委员会颁发的“2014年生物大分子/大分子青年研究者奖”(2014 Biomacromolecules/Macromolecules Young Investigator Award)。
2. 德国洪堡基金会颁发的“贝塞尔研究奖”(Bessel Research Award)(2013年)
3. 亚洲药物释放系统突破技术奖(日本药物释放系统学会和美国控制释放学会联合颁发,2013年)
4. 江苏特聘教授(2013年)
5. 江苏省333工程第二层次培养对象(2013年)
6. 苏州市十佳魅力科技人物(2013年)
7. 国家杰出青年基金获得者(2012年)
8. 教育部科学技术进步二等奖(2012年,排名2)
9. 江苏省科学技术进步二等奖(2012年,排名2)
10. 年度苏州市自然科学优秀学术论文一等奖(2012年)
11. 苏州市科学技术进步二等奖(2012年,排名1)
12. 2010年中国百篇最具影响国际学术论文(中国科学技术信息研究所,2011年)
13. 2009年中国百篇最具影响国际学术论文(中国科学技术信息研究所,2010年)
14. 年度苏州市自然科学优秀学术论文一等奖(2010年)[2]
钟志远专利
1. 孟凤华,徐海飞,钟志远,界面交联的温度敏感的聚合物囊泡及其应用。授权专利号:ZL 0113.5.
2. 李玉玲,刘兆忠,周磊,孟凤华,钟志远,侧链用硫辛酸修饰的亲水性聚合物及其制备和应用。授权专利号:ZL 1922.6.
3. 朱彩虹,罗思彬,孟凤华,朱秀林,钟志远,生物可降解阳离子聚合物及其应用。授权专利号:ZL 2056.9.
4. 陈维,王荣,孟凤华,钟志远,含有丙烯酸酯类功能基团的环碳酸酯单体及其制备和应用。专利申请号:.2。
5. 刘桂景,李少科,孟凤华,钟志远, 生物可降解聚合物囊泡及其制备和应用。专利申请号:.3。
6. 钟志远,刘兆忠,郑蒙,孟凤华,一种疏水基团修饰的聚乙烯亚胺衍生物及其应用。专利申请号:.2.
7. 钟志远, 李玉玲,刘兆忠,周磊,孟凤华,一种侧链用硫辛酸修饰的亲水性聚合物。专利申请号:.4。
8. Zhiyuan Zhong,Rong Wang, Wei Chen, Fenghua Meng,Method for making an (alkyl) vinyl sulfone based polymer, such (alkyl) vinyl sulfone based polymer, a polymer article and biodevice, cyclic (alkyl) vinyl sulfone carbonate and pegylated cyclic (alkyl) vinyl sulfone carbonate,PCT, filed June 2011.
9. Wei Chen, Rong Wang, Fenghua Meng, and Zhiyuan Zhong, A method of making a polymer preferably an (alkyl)acryloyl polycarbonate, the polymer and (alkyl)acryloyl polycarbonate obtained, and a biodevice comprising same. International Application No. PCT/WO/, filed December 2009.
10. Christine Hiemstra, Zhiyuan Zhong, and Jan Feijen, Stereo Photo Hydrogel, a Process of Making Said Stereo Photo Hydrogel, Polymers for Use in Making Such Hydrogel and a Pharmaceutical Comprising Said Polymers, International Application No. PCT/EP, filing date: March 20, 2007.
Zhiyuan Zhong, Pieter J. Dijkstra, and Jan Feijen, Branched biodegradable polymers, a macromonomer, processes for the preparation of same, and their use, European Patent, 05., filing date: June 3, 2005.[1]
钟志远发表文章
1) Y.N. Zhong, C. Wang, R. Cheng, L. Cheng, F.H. Meng*, Z. Liu*, and Z.Y. Zhong*, cRGD-Directed, NIR-Responsive and Robust AuNR/PEG-PCL Hybrid Nanoparticles for Targeted Chemotherapy of Glioblastoma In Vivo, J. Control. Release 2014 (in revision)
2) W. Chen, F.H. Meng, R. Cheng, C. Deng, J. Feijen*, and Z.Y. Zhong*, Advanced Drug and Gene Delivery Systems Based on Functional Biodegradable Polycarbonates and Copolymers, J. Control. Release 2014, http://dx.doi.org/10.1016/j.jconrel..
3) Y.N. Zhong, F.H. Meng, C. Deng*, and Z.Y. Zhong*, Ligand-Directed Active Tumor-Targeting Polymeric Nanoparticles for Cancer Chemotherapy, Biomacromolecules 2014, 15, .
4) Y. Zou, Y. Song, W.J. Yang, F.H. Meng*, H.Y.Liu, and Z.Y. Zhong*, Galactose-Installed Photo-Crosslinked pH-Sensitive Degradable Micelles for Active Targeting Chemotherapy of Hepatocellular Carcinoma in Mice, J. Control. Release 2014, http://dx.doi.org/10.1016/j.jconrel.
5) Y.J. Jiang, J. Chen, C. Deng*, E. Suuronen, and Z.Y. Zhong*, Click Hydrogels, Microgels and Nanogels: Emerging Platforms for Drug Delivery and Tissue Engineering, Biomaterials 2014, 35, .
6) C. Deng, J.T. Wu, R. Cheng, F.H. Meng, H.A. Klok, and Z.Y. Zhong*, Functional Polypeptide and Hybrid Materials: Precision Synthesis via α-Amino Acid N-Carboxyanhydride Polymerization and Emerging Biomedical Applications, Prog. Polym. Sci. 2014, 39, 330-364.
7) W. Chen, Y. Zou, F.H. Meng, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, Glyco-Nanoparticles with Sheddable Saccharide Shells: A Unique and Potent Platform for Hepatoma-Targeting Delivery of Anticancer Drugs, Biomacromolecules 2014, 15, 900-907.
8) H.L. Sun, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Reduction and pH Dual-Bioresponsive Crosslinked Polymersomes for Efficient Intracellular Delivery of Proteins and Potent Induction of Cancer Cell Apoptosis, Acta Biomaterialia 2014, 10,
9) F.H. Meng, Y.N. Zhong, R. Cheng, C. Deng, and Z.Y. Zhong*, pH-sensitive polymer nanoparticles for tumor-targeting doxorubicin delivery: Concept and recent advances, Nanomedicine 2014, 9, 487-499. (invited review)
10) H.L. Sun, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Reduction-Responsive Polymeric Micelles and Vesicles for Triggered Intracellular Drug Release, Antioxidants & Redox Signaling 2014, doi:10.1089/ars. (invited forum article)
11) W.W. Guo, M. Zheng, Y.N. Zhong, F.H. Meng, C. Deng*, and Z.Y. Zhong*, Poly(ethylene oxide)-graft-methotrexate Macromolecular Drugs Conjugating via Aminopteridine Ring Exhibit Potent Anticancer Activity, Chinese Journal of Chemistry 2014, 32, 57-65.
12) Y.N. Zhong, W.J. Yang, H.L. Sun, R. Cheng, F.H. Meng, C. Deng*, and Z.Y. Zhong*, Ligand-Directed Reduction-Sensitive Shell-Sheddable Biodegradable Micelles Actively Deliver Doxorubicin into the Nuclei of Target Cancer Cells, Biomacromolecules 2013, 14, .
13) J.R. Zhou, P.P. Chen, C. Deng*, F.H. Meng, R. Cheng, and Z.Y. Zhong*, A Simple and Versatile Synthetic Strategy to Functional Polypeptides via Vinyl Sulfone-Substituted L-Cysteine N-Carboxyanhydride, Macromolecules 2013, 46, .
14) Y.P. Fan, C. Deng*, R. Cheng, F.H. Meng, and Z.Y. Zhong*, In Situ Forming Hydrogels via Catalyst-Free and Bioorthogonal “Tetrazole–Alkene” Photo-Click Chemistry, Biomacromolecules 2013, 14, .
15) X.Y. Wang, H.L. Sun, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Galactose-Decorated Reduction-Sensitive Degradable Chimaeric Polymersomes as a Multifunctional Nanocarrier To Efficiently Chaperone Apoptotic Proteins into Hepatoma Cells, Biomacromolecules 2013, 14, .
16) Y.D. Gu, Y.N. Zhong, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Acetal-Linked Paclitaxel Prodrug Micellar Nanoparticles as a Versatile and Potent Platform for Cancer Therapy, Biomacromolecules 2013, 14, .
17) Y.N. Zhong, W. Wang, L. Cheng, F.H. Meng, Z.Y. Zhong*, and Z. Liu*, Gold Nanorod-Cored Biodegradable Micelles as a Robust and Remotely Controllable Doxorubicin Release System for Potent Inhibition of Drug-Sensitive and -Resistant Cancer Cells, Biomacromolecules 2013, 14, .
18) L.L. Wu, Y. Zou, C. Deng*, R. Cheng, F.H. Meng, and Z.Y. Zhong*, Intracellular Release of Doxorubicin from Core-Crosslinked Polypeptide Micelles Triggered by Both pH and Reduction Conditions,Biomaterials 2013, 34, .
19) W. Chen, M. Zheng, F.H. Meng, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, In Situ Forming Reduction-Sensitive Degradable Nanogels for Facile Loading and Triggered Intracellular Release of Proteins, Biomacromolecules 2013, 14, .
20) H.L. Sun, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Reduction-Sensitive Degradable Micellar Nanoparticles as Smart and Intuitive Delivery Systems for Cancer Chemotherapy, Expert Opin. Drug Deliv. 2013, 10, .
21) R. Cheng, F.H. Meng, C. Deng, H.A. Klok, and Z.Y. Zhong*, Dual and Multi-Stimuli Responsive Polymeric Nanoparticles for Programmed Site-Specific Drug Delivery, Biomaterials 2013, 34, .
22) J. Feijen, and Z.Y. Zhong*, The Second Symposium on Innovative Polymers for Controlled Delivery, September 11-14, 2012, Suzhou, China, J. Control. Release 2013, 169, 163-164.
23) W. Chen, P. Zhong, F.H. Meng*, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, Redox and pH-Responsive Degradable Micelles for Dually Activated Intracellular Anticancer Drug Release, J. Control. Release 2013, 169, 171-179.
24) J. Feijen, W.E. Hennink?, and Z.Y. Zhong*, Conference Scene: From Innovative Polymers To Advanced Nanomedicine: Key Challenges, Recent Progress and Future Perspectives, Nanomedicine 2013, 8, 177-180.
25) W. Chen, Y. Zou, J.N. Jia, F.H. Meng, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, Functional Poly(ε-caprolactone)s via Copolymerization of ε-Caprolactone and Pyridyl Disulfide-Containing Cyclic Carbonate: Controlled Synthesis and Facile Access to Reduction-Sensitive Biodegradable Graft Copolymer Micelles, Macromolecules 2013, 46, 699-707.
26) F.H. Meng, R. Cheng, C. Deng, and Z.Y. Zhong*, Intracellular Drug Release Nanosystems, Materials Today 2012, 15, 436-442 (invited review)
27) Y.L. Wu, W. Chen, F.H. Meng, Z.J. Wang, R. Cheng, C. Deng, H.Y. Liu, and Z.Y. Zhong*, Core-Crosslinked pH-Sensitive Degradable Micelles: A Promising Approach to Resolve the Extracellular Stability Versus Intracellular Drug Release Dilemma, J. Control. Release 2012, 164, 338-345.
28) C. Deng, Y.J. Jiang, R. Cheng, F.H. Meng, and Z.Y. Zhong*, Biodegradable Polymeric Micelles for Targeted and Controlled Anticancer Drug Delivery: Promises, Progress and Prospects, Nano Today 2012, 7, 467-480 (invited review)
29) R.R. Wei, L. Cheng, M. Zheng, R. Cheng, F.H. Meng, C. Deng, and Z.Y. Zhong*, Reduction-Responsive Disassemblable Core-Cross-Linked Micelles Based on Poly(ethylene glycol)-b-poly(N-2-hydroxypropyl methacrylamide)–Lipoic Acid Conjugates for Triggered Intracellular Anticancer Drug Release, Biomacromolecules 2012, 13, .
30) S.K. Li, F.H. Meng, Z.J. Wang, Y.N. Zhong, M. Zheng, H.Y. Liu, and Z.Y. Zhong*, Biodegradable Polymersomes with An Ionizable Membrane: Facile Preparation, Superior Protein Loading, And Endosomal pH-Responsive Protein Release, Eur. J. Pharm. Biopharm. 2012, 82, 103-111 (invited article)
31) Y.F. Du, W. Chen, M. Zheng, F.H. Meng, and Z.Y. Zhong*, pH-Sensitive Degradable Chimaeric Polymersomes for the Intracellular Release of Doxorubicin Hydrochloride, Biomaterials 2012, 33, .
32) R. Cheng, X.Y. Wang, W. Chen, F.H. Meng, C. Deng, H.Y. Liu, and Z.Y. Zhong*, Biodegradable Poly(ε-caprolactone)-g-Poly(2-hydroxyethyl methacrylate) Graft Copolymer Micelles as Superior Nano-Carriers for “Smart” Doxorubicin Release, J. Mater. Chem. 2012, 22, .
33) M. Zheng, Z.H. Zhong, L. Zhou, F.H. Meng, R. Peng, and Z.Y. Zhong*, Poly(ethylene oxide) Grafted with Short Polyethylenimine Gives DNA Polyplexes with Superior Colloidal Stability, Low Cytotoxicity and Potent In Vitro Gene Transfection Under Serum Conditions, Biomacromolecules 2012, 13, 881–888.
34) W. Wang, H.L. Sun, F.H. Meng, S.B. Ma, H.Y. Liu, and Z.Y. Zhong*, Precise Control of Intracellular Drug Release and Anti-Tumor Activity of Biodegradable Micellar Drugs Via Reduction-Sensitive Shell-Shedding, Soft Matter 2012, 8, .
35) C.H. Zhu, M. Zheng, F.H. Meng, F.M. Mickler, N. Ruthardt, X.L. Zhu, and Z.Y. Zhong*, Reversibly Shielded DNA Polyplexes Based on Bioreducible PDMAEMA-SS-PEG-SS-PDMAEMA Triblock Copolymers Mediate Markedly Enhanced Nonviral Gene Transfection,Biomacromolecules 2012, 13, 769–778.
36) J.C. Zhang, L.L. Wu, F.H. Meng, Z.J. Wang, C.Deng, H.Y. Liu, and Z.Y. Zhong*, pH and Reduction Dual-Bioresponsive Polymersomes for Efficient Intracellular Protein Delivery, Langmuir 2012, 28, . (invited article)
37) M. Zheng, C.M. Yang, F.H. Meng, R. Peng, and Z.Y. Zhong*, pH-Sensitive Degradable Hydrophobe Modified 1.8 kDa Branched Polyethylenimine, as “Artificial Viruses” for Safe and Efficient Intracellular Gene Transfection, Macromol. Res. 2012, 20, 327-334 (Invited Article)
38) F.X. Zhan, W. Chen, Z.J. Wang, W.T. Lu, R. Cheng, C. Deng, F.H. Meng, H.Y. Liu and Z.Y. Zhong*, Acid-Activatable Prodrug Nanogels for Efficient Intracellular Doxorubicin Release, Biomacromolecules 2011, 12, .
39) R. Cheng, F.H. Meng, S.B. Ma, H.F. Xu, H.Y. Liu, X.B. Jing, and Z.Y. Zhong*, Reduction and Temperature Dual-Responsive Crosslinked Polymersomes for Targeted Intracellular Protein Delivery, J. Mater. Chem. 2011, 21, .
40) M. Zheng, Y.N. Zhong,F.H. Meng, R. Peng, and Z.Y. Zhong*, Lipoic Acid Modified Low Molecular Weight Polyethylenimine Mediates Nontoxic and Highly Potent In Vitro Gene Transfection,Mol. Pharmaceutics,2011,8, .
41) Z.Z. Liu, M. Zheng, F.H. Meng, and Z.Y. Zhong*, Non-Viral Gene Transfection In Vitro Using Endosomal pH-Sensitive Reversibly Hydrophobilized Polyethylenimine, Biomaterials 2011, 32, .
42) R. Wang, W. Chen, F.H. Meng, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, Unprecedented Access to Functional Biodegradable Polymers and Coatings, Macromolecules 2011, 44, .
43) Y.H. Cong, H. Liu, D.L. Wang, B.J. Zhao, T.Z. Yan, L.B. Li , W. Chen, Z.Y. Zhong , M.-C. Lin, H.-L. Chen, and C.L. Yang, Stretch-Induced Crystallization through Single Molecular Force Generating Mechanism, Macromolecules 2011, 44, .
44) J. Chen, W. Chen, C. Deng, F.H. Meng, and Z.Y. Zhong*, Controlled Surface-Initiated Ring-Opening Polymerization of L-Lactide from Risedronate-Anchored Hydroxyapatite Nanocrystals: Novel Synthesis of Biodegradable Hydroxyapatite/Poly(L-lactide) Nanocomposites, J. Polym. Sci. Part A: Polym. Chem. 2011, 49, .
45) R. Yang, F.H. Meng, S.B. Ma, F.S. Huang, H.Y. Liu, and Z.Y. Zhong*, Galactose-Decorated Crosslinked Biodegradable Poly(Ethylene Glycol)-b-Poly(ε-Caprolactone) Block Copolymer Micelles for Enhanced Hepatoma-Targeting Delivery of Paclitaxel, Biomacromolecules 2011, 12, .
46) Y.X. Yu, C. Deng, F.H. Meng, Q. Shi, J. Feijen, and Z.Y. Zhong*, Novel Injectable Biodegradable Glycol Chitosan-Based Hydrogels Crosslinked by Michael-Type Addition Reaction with Oligo(acryloyl carbonate)-b-Poly(ethylene glycol)-b-Oligo(acryloyl carbonate) Copolymers, J. Biomed. Mater. Res. Part A 2011, 99A, 316-326.
47) S.B. Luo, R. Cheng, F.H. Meng, T.G. Park, and Z.Y. Zhong*, Water Soluble Poly(histamine acrylamide) with Superior Buffer Capacity Mediates Efficient and Nontoxic In Vitro Gene Transfection, J. Polym. Sci. Part A: Polym. Chem. 2011, 49, .
48) F.H. Meng, and Z.Y. Zhong*,Polymersomes Spanning from Nano to Micro Scales: Advanced Vehicles for Controlled Drug and Robust Vesicles for Virus and Cell-MimickingJ. Phys. Chem. Letters 2011, 2, . (Invited Perspective)
49) H.L. Sun, F.H. Meng, A.A. Dias, M. Hendriks, J. Feijen, and Z.Y. Zhong*, a-Amino Acid Containing Degradable Polymers as Functional Biomaterials: Rational Design, Synthetic Pathway and Biomedical Applications, Biomacromolecules 2011, 12, .
50) J. Xiong, F.H. Meng, C. Wang, R. Cheng, Z. Liu, and Z.Y. Zhong*, Folate-Conjugated Crosslinked Biodegradable Micelles for Receptor-Mediated Delivery of Paclitaxel, J. Mater. Chem. 2011, 21, .
51) L. Zhou, R. Cheng, H.Q. Tao, S.B. Ma, W.W. Guo, F.H. Meng, H.Y. Liu, Z. Liu, and Z.Y. Zhong*, Endosomal pH-Activatable Poly(ethylene oxide)-graft-Doxorubicin Prodrugs: Synthesis, Drug Release, and Biodistribution in Tumor-Bearing Mice, Biomacromolecules 2011, 12, .
52) Y.H. Wang, M. Zheng, F.H. Meng, J. Zhang, R. Peng, and Z.Y. Zhong*, Branched Polyethylenimine Derivatives with Reductively Cleavable Periphery for Safe and Efficient In Vitro Gene Transfer, Biomacromolecules 2011, 12, .
53) R. Cheng, F. Feng, F.H. Meng, C. Deng, J. Feijen, Z.Y. Zhong*, Glutathione-Responsive Nano-Vehicles as a Promising Platform for Targeted Intracellular Drug and Gene Delivery, J. Control. Release 2011, 152, 2-12.
54) Z.Y. Zhong*, and J. Feijen, The First Symposium on Innovative Polymers for Controlled Delivery, September 14-17, 2010, Suzhou, China, J. Control. Release 2011, 152, 1-1.
55) G.J. Liu, S.B. Ma, S.K. Li, R. Cheng, F.H. Meng,*, H.Y. Liu, Z.Y. Zhong*, The highly efficient delivery of exogenous proteins into cells mediated by biodegradable chimaeric polymersomes, Biomaterials 2010, 31, .
56) R. Jin, L.S. MoreiraTeixeira, P.J. Dijkstra, Z.Y. Zhong, C.A. van Blitterswijk, M. Karperien, J. Feijen, Enzymatically crosslinked dextran-tyramine hydrogels as injectable scaffolds for cartilage tissue engineering, Tissue Engineering Part A. 2010,16, .
57) C.H. Zhu, S.Y. Jung, G.Y. Si, R. Cheng, F.H. Meng*, X.L. Zhu, T.G. Park, and Z.Y. Zhong*, Cationic methacrylate copolymers containing primary and tertiary amino side groups: controlled synthesis via RAFT polymerization, DNA condensation, and in vitro gene transfection, J. Polym. Sci. Part A: Polym. Chem. 2010, 48, .
58) H.L. Sun, F.H. Meng*, B.N. Guo, X.Q. Li, R. Cheng, H.Y. Liu, and Z.Y. Zhong*, Shell-sheddable micelles based on dextran-ss-poly(e-caprolactone) diblock copolymer for efficient intracellular release of doxorubicin, Biomacromolecules 2010, 11, 848–854.
59) R. Namgung, J.H. Brumbach, J.H. Jeong, J.W. Yockman, S.W. Kim, C. Lin, Z.Y. Zhong, J. Feijen, J.F.J. Engbersen, and W.J. Kim*, Dual bio-responsive gene delivery via reducible poly(amido amine) and survivin-inducible plasmid DNA, Biotechnol. Lett. 2010, 32, 755-764.
60) C.H. Zhu, S.Y. Jung, S.B. Luo, F.H. Meng, X.L. Zhu, T.G. Park, and Z.Y. Zhong*, Co-delivery of siRNA and Paclitaxel into Cancer Cells by Biodegradable Cationic Micelles Based on PDMAEMA-PCL-PDMAEMA Triblock Copolymers, Biomaterials 2010, 31, .
61) W. Chen, F.H. Meng*, R. Cheng, and Z.Y. Zhong*, pH-Sensitive Degradable Polymersomes for Triggered Release of Anticancer Drugs: a Comparative Study with Micelles, J. Control. Release 2010, 142, 40-46.
62) W. Chen, H.C. Yang, R. Wang, R. Cheng, F.H. Meng*, W.X. Wei, and Z.Y. Zhong*, Versatile Synthesis of Functional Biodegradable Polymers by Combining Ring-Opening Polymerization and Postpolymerization Modification via Michael-Type Addition Reaction, Macromolecules 2010, 43, 201–207.
63) J.M. Jukes, L.J. van der Aa, C. Hiemstra, T. van Veen, P.J. Dijkstra, Z.Y. Zhong, J. Feijen, C.A. van Blitterswijk, J. de Boer, A newly developed chemically crosslinked Dex-PEG hydrogel for cartilage tissue engineering, Tissue Engineering Part A. 2010, 16: 565-573.
64) Y.L. Li, L. Zhu, Z.Z. Liu, R. Cheng, F.H. Meng*, J.H. Cui, S.J. Ji, and Z.Y. Zhong*, Reversibly Stabilized Multifunctional Dextran Nanoparticles Efficiently Deliver Doxorubicin into the Nuclei of Cancer Cells, Angew. Chem. Int. Ed. 2009, 48, .
65) Y.M. Xu, F.H. Meng*, R. Cheng, Z.Y. Zhong*, Reduction-Sensitive Reversibly Crosslinked Biodegradable Micelles for Triggered Release of Doxorubicin, Macromol. Biosci. 2009, 9, .
66) H.Z. Du, A.H. Velders, P.J. Dijkstra, Z.Y. Zhong, X.S. Chen, J. Feijen, Chiral Salan Aluminum Ethyl Complexes and Their Application in Lactide Polymerization, Chem.-Eur. J. 2009, 15: .
67) H.L. Sun, B.N. Guo, R. Cheng, F.H. Meng *, H.Y. Liu, Z.Y. Zhong*, Biodegradable micelles with sheddable poly(ethylene glycol) shells for triggered intracellular release of doxorubicin,Biomaterials2009, 30: .
68) W. Chen, F.H. Meng, F. Li, S.-J. Ji, Z.Y. Zhong*, pH-Responsive Biodegradable Micelles Based on Acid-Labile Polycarbonate Hydrophobe: Synthesis and Triggered Drug Release, Biomacromolecules 2009, 10: .
69) H.F. Xu, F.H. Meng*, Z.Y. Zhong*, Reversibly crosslinked temperature-responsive nano-sized polymersomes: synthesis and triggered drug release, J. Mater. Chem. 2009, 19: .
70) F.H. Meng, W.E.Hennink, Z.Y. Zhong*, Reduction-Sensitive Polymers and Bioconjugates for Biomedical Applications, Biomaterials 2009, 30:.
71) R. Jin, L.S. Moreira Teixeira, P.J. Dijkstra, M. Karperien, Z.Y. Zhong, J. Feijen, Injectable Chitosan-based Hydrogels for Cartilage Tissue Engineering, Biomaterials 2009, 30:
72) H.Z. Du, A.H. Velders, P.J. Dijkstra, Z.Y. Zhong, X.S. Chen, J. Feijen, Polymerization of lactide using achiral bis(pyrrolidene) schiff base aluminum complexes, Macromolecules 2009, 42: .
73) F.H. Meng, Z.Y. Zhong*, J. Feijen, Stimuli-responsive polymersomes for programmed drug delivery. Biomacromolecules 2009, 10: 197-209.
74) C. Lin, C.-J. Blaauboer, M. Mateos Timoneda, M.C. Lok, M. van Steenbergen, W.E. Hennink, Z.Y. Zhong, J. Feijen, and J.F.J. Engbersen, Bioreducible poly(amido amine)s with oligoamine side chains: Synthesis, characterization, and structural effects on gene delivery, J. Control. Release, 2008, 126: 166-174.
75) C. Lin, Z.Y. Zhong, M.C. Lok, Holger K. de Wolf, W.E. Hennink, J. Feijen, J.F.J. Engbersen, Bioreducible poly(amido amine)s for gene delivery to ovarian cancer cells, J. Control. Release, 2008, 132: e9-e10.
76) R. Jin, L.S. Moreira Teixeira, P.J. Dijkstra, M. Karperien, Z. Zhong, J. Feijen, Fast in-situ formation of dextran-tyramine hydrogels for in vitro chondrocyte culturing, J. Control. Release, 2008, 132: e24-e26.
77) C. Hiemstra, W. Zhou, Z.Y. Zhong*, M. Wouters, and J Feijen*, Rapidly in situ forming biodegradable robust hydrogels by combining stereocomplexation and photopolymerization, J. Am. Chem. Soc. 2007, 129: .
78) M. Roerdink, T.S. van Zanten, M.A. Hempenius, Z.Y. Zhong, J. Feijen, and G.J. Vancso, Poly(ferrocenylsilane-block-lactide) Block copolymers, Macromol.Rapid Commun.2007, 28: .
79) C. Lin, Z.Y. Zhong*, M.C. Lok, X.L. Jiang, W.E. Hennink, J. Feijen, and J.F.J. Engbersen*, Random and block copolymers of bioreducible poly(amido amine)s with high-and low-basicity amino groups: study of DNA condensation and buffer capacity on gene transfection, J. Control. Release, 2007, 123: 67-75.
80) C. Hiemstra, Z.Y. Zhong*, M. J. van Steenbergen, W.E. Hennink, and J. Feijen*, Release of model proteins and basic fibroblast growth factor from in situ forming degradable dextran hydrogels, J. Control. Release 2007, 122: 71-78.
81) C. Hiemstra, Z.Y. Zhong*, S.R. van Tomme, M. J. van Steenbergen, J.J.L. Jacobs, W. den Otter, W.E. Hennink, and Jan Feijen*, In vitro and in vivo protein delivery from in situ forming poly(ethylene glycol)-poly(lactide) hydrogels, J. Control. Release 2007, 119: 320-327.
82) C. Hiemstra, L.J. van der Aa, Z.Y. Zhong*, and J. Feijen*, Rapidly in situ forming degradable hydrogels from dextran thiols through Michael addition, Biomacromolecules2007, 8: .
83) F. Rusmini, Z.Y. Zhong*, and J. Feijen*, Protein immobilization strategies for protein biochips, Biomacromolecules 2007, 8: .
84) R. Jin, C. Hiemstra, Z.Y. Zhong*, and J. Feijen*, Enzyme-mediated fast in-situ formation of hydrogels from dextran-tyramine conjugates, Biomaterials 2007, 28: .
85) C. Hiemstra, L.J. van der Aa, Z.Y. Zhong*, P.J. Dijkstra, and J. Feijen*, Novel in situ forming, degradable dextran hydrogels by Michael addition chemistry: synthesis, rheology and degradation, Macromolecules 2007, 40: .
86) L.V. Christensen, C.W. Chang, J.W. Yockman, R. Conners, H. Jackson, D.A. Bull, Z.Y. Zhong, J. Feijen, and S.W. Kim, Reducible poly(amido ethylenediamine) for hypoxia-inducible VEGF delivery, J. Control. Release 2007, 118: 254-261.
87) J.H. Jeong, L.V. Christensen, J.W. Yockman, Z.Y. Zhong, J.F.J. Engbersen, W.J. Kim, J. Feijen, S.W. Kim, Reducible poly(amido ethylenimine) directed to enhance RNA interference, Biomaterials 2007, 28: .
88) C. Lin, Z.Y. Zhong*, M.C. Lok, X.L. Jiang, W.E. Hennink, J. Feijen, and J.F.J. Engbersen*, Novel bioreducible poly(amido amine)s for highly efficient gene delivery, Bioconjugate Chem. 2007,18: 138-145.
89) L.B. Li, F.H. Meng, Z.Y. Zhong, D. Byelov, W.H. de Jeu, and J. Feijen, Morphology of a highly asymmetric double crystallizable poly(e-caprolactone-b-ethylene oxide) block copolymer, J. Chem. Phys., 2007, 126: Art. No. 024904.
90) M.R. ten Breteler, Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Ring-opening polymerization of substituted e-caprolactones using a chiral (salen) AlOiPr-Complex, J. Polym. Sci. Part A, Polym. Chem. 2007, 45: 429-436.
91) C. Lin, Z.Y. Zhong*, M.C. Lok, X.L. Jiang, W.E. Hennink, J. Feijen, and J.F.J. Engbersen*, Linear poly(amido amine)s with secondary and tertiary amino groups and variable amounts of disulfide linkages: synthesis and in vitro gene transfer properties, J. Control. Release, 2006, 116: 130-137.
92) C. Hiemstra, Z.Y. Zhong, X. Jiang, W.E. Hennink, P.J. Dijkstra, and J. Feijen, PEG-PLLA and PEG-PDLA multiblock copolymers: synthesis and in situ hydrogel formation by stereocomplexation, J. Control. Release,2006, 116: e17-e19.
93) C. Hiemstra, Z.Y. Zhong, S.R. van Tomme, W.E. Hennink, P.J. Dijkstra, and J. Feijen, Protein release from injectable stereocomplexed hydrogels based on PEG-PDLA and PEG-PLLA star block copolymers, J. Control. Release, 2006, 116: e19-e21.
94) C. Lin, T.M. Lammens, Z.Y. Zhong, H. Gu, M.C. Lok, X. Jiang, W.E. Hennink, J. Feijen, and J.F.J. Engbersen, Disulfide-containing poly(β-amino ester)s for gene delivery, J. Control. Release, 2006, 116: e79-e81.
95) Z.Y. Zhong*, C. Lin, Y. Ma, M.A. Hempenius, M.C. Lok, M.M. Fretz, J.F.J. Engbersen, G.J. Vancso, W.E. Hennink, and J. Feijen, Water-soluble cationic poly(ferrocenylsilane): an efficient DNA condensation and transfection agent, J. Control. Release, 2006, 116: e81-e83.
96) C. Hiemstra, Z.Y. Zhong*, L.B. Li, P.J. Dijkstra, and J. Feijen*, In situ formation of biodegradable hydrogels by stereocomplexation of PEG-(PLLA)8 and PEG-(PDLA)8 star block copolymers, Biomacromolecules 2006, 7: .
97) L.V. Christensen, C.W. Chang, W.J. Kim, S.W. Kim*, Z.Y. Zhong*, C. Lin, J.F.J. Engbersen*, and J. Feijen, Reducible poly(amido ethylenimine)s designed for triggered intracellular gene delivery, Bioconjugate Chem., 2006, 17: .
98) M. Leemhuis, C.F. van Nostrum, J.A.W. Kruijtzer, Z.Y. Zhong, M.R. ten Breteler, P.J. Dijkstra, J. Feijen, and W.E. Hennink, Functionalized poly(-hydroxy acid)s via ring-opening polymerization: toward hydrophilic polyesters with pendant hydroxyl groups, Macromolecules, 2006, 39: .
99) G. Engbers, A. Poot, D. Grijpma, Z.Y. Zhong, and P. Dijkstra, Professor Jan Feijen-30 years research in biomedical technology, J. Control. Release 2005, 109: 2-4.
100) Z.Y. Zhong, J. Feijen, M.C. Lok, W.E. Hennink, L. Christensen, J.W. Yockman, Y.-H. Kim, and S.W. Kim, Low molecular weight linear polyethylenimine-b-poly(ethylene glycol)-b-polyethylenimine triblock copolymers: synthesis, characterization and in vitro gene transfer properties, Biomacromolecules, 40-3448.
101) Z.Y. Zhong, Y. Song, J.F.J. Engbersen, M.C. Lok, W.E. Hennink, and J. Feijen, A versatile family of degradable non-viral gene carriers based on hyperbranched poly(ester amine)s. J. Control. Release : 317-329.
102) C. Hiemstra, Z.Y. Zhong, P. Dijkstra, and J. Feijen, Stereocomplex mediated gelation of PEG-(PLA)(2) and PEG-(PLA)(8) block copolymers. Macromol. Symp., : 119-131.
103) Z. Zhong, M.C. Lok, P.J. Dijkstra, W.E. Hennink, and J. Feijen, Structurally well-defined copolymers of poly(ethylene glycol) and low molecular weight linear polyethylenimine as vectors for gene delivery. J. Control. Release, -3): 406-408.
104) C. Hiemstra, Z. Zhong, P.J. Dijkstra, and J. Feijen, PEG-PLA hydrogels by stereocomplexation for tissue engineering of cartilage. J. Control. Release, -3): 332-334.
105) G. Becker, M. Niemeyer, O. Mundt, W. Schwarz, M. Westerhausen, M.W. Ossberger, P. Mayer, H. Noth, Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Crystal structures and spectroscopic properties of 2 lambda(3)-phospha-1,3-dionates and 1,3-dionates of calcium - Comparative studies on the 1,3-diphenyl and 1,3-Di(tert-butyl) derivatives. Z. Anorg. Allg. Chem., ): .
106) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Controlled synthesis of biodegradable lactide polymers and copolymers using novel in situ generated or single-site stereoselective polymerization initiators. J. Biomater. Sci.-Polym. Ed., ): 929-946.
107) L.B. Li, Z.Y. Zhong, W.H. de Jeu, P.J. Dijkstra, and J. Feijen, Crystal structure and morphology of poly(L-lactide-b-D-lactide) diblock copolymers. Macromolecules, ): .
108) M. Westerhausen, S. Schneiderbauer, A.N. Kneifel, Y. Soltl, P. Mayer, H. Noth, Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Organocalcium compounds with catalytic activity for the ring-opening polymerization of lactones. Eur. J. Inorg. Chem., 2003, (18): .
109) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Determination of the Stereoselectivity Factor for an Asymmetric Enantiomer-Differentiating Polymerization: a Revisit. Macromolecules, ): .
110) Z.Y. Zhong, S. Schneiderbauer, P.J. Dijkstra, W. M., and J. Feijen, Single-site calcium initiators for the controlled ring-opening polymerization of lactides and lactones. Polym. Bull., 5-182.
111) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, controlled and stereoselective polymerization of lactide: kinetics, selectivity, and microstructures. J. Am. Chem. Soc., ): .
112) A.P. Pego, Z.Y. Zhong, P.J. Dijkstra, D.W. Grijpma, and J. Feijen, Influence of catalyst and polymerization conditions on the properties of 1,3-trimethylene carbonate and epsilon- caprolactone copolymers. Macromol. Chem. Phys., -6): 747-754.
113) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, [(salen)Al]-mediated, controlled and stereoselective ring-opening polymerization of lactide in solution and without solvent: Synthesis of highly isotactic polylactide stereocopolymers from racemic D,L-lactide. Angew. Chem. Int. Edit., ): .
114) Z.Y. Zhong, P.J. Dijkstra, J. Feijen, Y.M. Kwon, Y.H. Bae, and S.W. Kim, Synthesis and aqueous phase behavior of thermoresponsive biodegradable poly(D,L-3-methylglycolide)-block-poly(ethylene glycol)-block-poly(D,L-3-methylglycolide) triblock copolymers. Macromol. Chem. Phys., ): .
115) Z.Y. Zhong, S. Schneiderbauer, P.J. Dijkstra, M. Westerhausen, and J. Feijen, Fast and living ring-opening polymerization of L-lactide initiated with in-situ-generated calcium alkoxides. J. Polym. Environ., ): 31-38.
116) Z.Y. Zhong, M.J.K. Ankone, P.J. Dijkstra, C. Birg, M. Westerhausen, and J. Feijen, Calcium methoxide initiated ring-opening polymerization of epsilon-caprolactone and L-lactide. Polym. Bull., ): 51-57.
117) Z.Y. Zhong, P.J. Dijkstra, C. Birg, M. Westerhausen, and J. Feijen, A novel and versatile calcium-based initiator system for the ring-opening polymerization of cyclic esters. Macromolecules, ): .
118) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Controlled ring-opening polymerization of omega- pentadecalactone with yttrium isopropoxide as an initiator. Macromol. Chem. Phys., ): .
119) Z.Y. Zhong, D.H. Yu, F.H. Meng, Z.H. Gan, and X.B. Jing, Controlled synthesis of L-lactide-b-epsilon-caprolactone block copolymers using a rare earth complex as catalyst. Polym. J., ): 633-636.
120) Z.H. Gan, D.H. Yu, Z.Y. Zhong, Q.Z. Liang, and X.B. Jing, Enzymatic degradation of poly(epsilon-caprolactone)/poly(DL- lactide) blends in phosphate buffer solution. Polymer, ): .
121) J. Zhang, Z.H. Gan, Z.Y. Zhong, and X.B. Jing, A novel rare earth coordination catalyst for polymerization of biodegradable aliphatic lactones and lactides. Polym. Int., ): 60-66.[1]
钟志远部分国际会议邀请报告
1. Plenary lecture “Robust Biodegradable Nanoparticles with Active Tumor-Targeting and Programmed Drug Release”, 13 European Symposium on Controlled Drug Delivery (ESCDD 2014, April 16-18, 2014, Egmond aan Zee, The Netherlands)
2. Invited lecture “Design of Bio-Responsive Polymeric Nanosystems for Active Anticancer Drug, Protein, and Gene Delivery”, Seminar Nanobiotechnology Munich (January 28, 2014, Ludwig-Maximilians-University Munich, Germany)
3. Invited lecture “Design of Stimuli-Sensitive Biodegradable Polymeric Nanosystems for Precision Anticancer Drug Release”, The 13th Pacific Polymer Conference (PPC 2013, November 17-22, 2013, Kaohsiung,Taiwan)
4. Invited lecture “Biodegradable Nanoparticles for Targeted Anticancer Drug Delivery: Dilemma of Extracellular Stability versus Intracellular Drug Release”, 3rd Sino-German Symposium on Nanomaterials for Biomedical Applications (October 28-30, 2013, Hangzhou,China)
5. Invited lecture “Bioresponsive Biodegradable Micelles and Polymersomes for Targeted Intracellular Drug Delivery”, 246 ACS National Meeting (September 8 -12, 2013, Indianapolis,USA)
6. Invited lecture “From Functional Biodegradable Polymers To Targeted Drug and Protein Delivery” (August 16, 2013, Freie Universit?t Berlin,Germany)
7. Invited lecture “Bioresponsive Degradable Nanocarriers for Active Intracellular Anticancer Drug Delivery”, Controlled Release Society's 40th Annual Meeting and Exposition (July 21-24, 2013, Honolulu, Hawaii,USA)
8. Invited lecture “Bioresponsive Degradable Micelles and Polymersomes for Active Intracellular Drug Release in Cancer Cells”, Joint Symposium of the 5th Utah-Inha DDS & Advanced Therapeutics Research Center Symposium and the 7th International Symposium on Intelligent DDS (May 23-24, 2013, Incheon, Korea)
9. Invited lecture “Bioresponsive Nanosystems for Active Intracellular Drug and Protein Delivery”, 2013 MRS Spring Meeting & Exhibit (April 1-5, 2013, San Francisco,USA)
10. Invited lecture “From Functional Biodegradable Polymers To Controlled Drug Release Systems”, Symposium on Collaborations in Medical Bionics (December 8, 2012, Beijing,China)
11. Invited lecture “Novel Design and Synthesis of Functional Biodegradable Polymers and Nano-Carriers”, 244 ACS National Meeting (August 19-23, 2012, Philadelphia,USA)
12. Invited lecture “From Functional Biodegradable Polymers To Advanced Drug Delivery Systems”, 2012 World Polymer Congress (MACRO 2012, June 24-29, 2012, Virginia, USA)
13. Invited lecture “Nano-Carriers for Targeted Drug Delivery: Issues of Stability Versus Drug Release”, 12 European Symposium on Controlled Drug Delivery (ESCDD 2012, April 4-6, 2012, Egmond aan Zee, The Netherlands)
14. Invited lecture “Biodegradable Nano-Carriers for Drug, Protein and Gene Delivery: Promise, Problems and Prospects”, Seminar of Institute of Bioengineering and Nanotechnology (IBN) (January 4, 2012,Singapore)
15. Invited lecture “Versatile Synthesis and Biomedical Applications of Functional Biodegradable Polymers”, The 5th International Symposium on Polymer Chemistry (PC2012, June 2-6, 2012, Changchun,China)
16. Invited lecture “Bio-Responsive Nano-carriers for Efficient Intracellular Drug and Gene Delivery”, 12 Pacific Polymer Conference (PPC 12, November 13-17, 2011, Jeju Island,South Korea)
17. Invited lecture “Reduction-Responsive Nano-Carriers for Targeted Intracellular Drug Delivery”, 3 Asian Biomaterials Congress (September 15-17, 2011, Busan,South Korea)
18. Invited lecture “Multifunctional Biomaterials and Polymer-based Controlled Drug Release Systems”, 2 Sino-German Symposium on Multifunctional Biomaterials and Polymer-based Controlled Drug Release Systems (October 27-30, 2011, Berlin,Germany)
19. Invited lecture “Novel Synthesis of Functional Biodegradable Polymers based on Designed Cyclic Carbonate Monomers”, 3 International Conference on Bio-based Polymers (ICBP 2011, October 18-21, 2011, Beijing,China)
20. Invited lecture “Nano-Vehicles for Targeted Drug Delivery: Issues of Stability versus Drug Release”, The International Symposium on Functional Polymers and Nanomedicine (May 15-18, 2011, Hangzhou,China)
21. Invited lecture “Novel PDMAEMA and PEI-Based Gene Vectors”, 10 China-Japan-Korea Foresight Joint Symposium on Gene Delivery and International Symposium on Biomaterials(May 29-June 2, 2011, Guilin, China)
22. Invited lecture “pH and Reduction-Responsive Nano-Vehicles for Intracellular Protein and Drug Delivery”, 2011 International Advanced Drug Delivery Symposium (April 27-28, 2011,Taiwan)
23. Invited lecture “Reduction-Responsive Nano-Carriers for Intracellular Delivery of Anticancer Drugs”, The Third Sino-German Frontiers of Chemistry Symposium (August 12-15, 2010, Seeon,Germany)
24. Invited lecture “Bioresponsive Nano-Vehicles for Drug and Gene Delivery”, International Symposium on Polymer Chemistry (PC 2010, June 2-5, 2010, Suzhou,China)
25. Invited lecture “Reduction-Responsive Nano-Carriers for Targeted Intracellular Drug Delivery”, Sino-German Symposium on Bioinspired Systems for Drug, Protein and Gene Delivery (September 6-9, 2010, Chengdu, China)
26. Invited lecture “Stimuli-Sensitive Nano-carriers for Triggered Intracellular Drug Delivery”, 2 Sino-Canadian Conference of Advanced Materials (May 15-17, 2010, Suzhou,China)
27. Invited lecture “Stimuli-Responsive Biodegradable Micelles and Polymersomes for Triggered Drug Delivery”, 13 International IUPAC Conference on Polymers and Organic Chemistry (July 5 - 8, 2009, Montréal,Canada)[1]
.苏州大学高分子系[引用日期]
企业信用信息}
&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&签到排名:今日本吧第个签到,本吧因你更精彩,明天继续来努力!
本吧签到人数:0成为超级会员,使用一键签到本月漏签0次!成为超级会员,赠送8张补签卡连续签到:天&&累计签到:天超级会员单次开通12个月以上,赠送连续签到卡3张
关注:105,730贴子:
近期Core-M很热闹,偷来几张伟彦PH103的拆机图收藏
伟彦近期在贴吧很活跃,有用户有水军,貌似跟WIN8贴吧吧主也准备要搞什么103收发活动。市场上关于Core-M产品的消息漫天飞,一些不职业的写手连价格都没写就敢宣称性价比高,也是醉的不轻。本人近期写了很多深圳厂商的内部信息,这些信息对于消费者而言应该算是比较新鲜的,有人说好,也有人表示怀疑,陆续收到一些厂商要求不要扒皮太狠的私信。所以以后挑好听的说,毕竟大家买东西图的是个爽。为了写稿子,跟几个厂商的相关工作人员走的比较近(为了挖料我也是蛮拼),本来想多了解一些Core-M产品的信息,找了很多人也拿不到更多的信息,有的说近期要发布但开售时间不知道,有的讳深莫测给不出信息,伟彦官群倒是泄了几张图,我偷过来让大家看看伟彦正在忙活的发布会要公布的PH103工程机的内部做工到底怎样。伟彦官群泄密开售时间据说是定在发布会之后,从他们官方的时间表来看,应该很快就发布了。不过听他们官方说,将有意不当第一个发布Core-M产品的国产厂商,一来要看竞品的价格策略自己好获得后发优势,二来说是第一代和第二代产品因为发售时间和交货时间太久带来不少消费者吐槽这次憋着备足货再开售。。反正从我们消费者的角度来看,同样做工同样配置谁价格好谁有货肯定先买谁。下面是来自伟彦官群的103工程机泄密图,估计跟正式产品还有一些差距,大家一起来看看吧,毕竟是Core-M产品的业界第一张拆机图:看上去还算整齐,上半部是主板,下半部是电池,看上去主板又是所谓的单面设计,连接线用的是导线和连接器,没像窄板那样用胶带贴一下应付。尼玛,看得好眼花,跟BayTrail内部的状况实在不同。两根粗线连接到底部,难道底部也有什么扩展??看来中间那个就是Core-M的阵容了,CPU和GPU是分开设计的,也不同于ATOM芯片。那上面4个应该就是内存条了,三星的4G内存?DDR3L 13000MHZ?要是用1600MHZ就更好了。这就是伟彦102以来伟彦一直引以为豪的航空级铝镁合金?百度脑补了一下,铝镁合金在保持足够的坚固度基础上质量轻,不会增加太多重量。看来103也用了这个所谓的航空级铝镁合金的防滚跌架。这个贴在屏幕后面的黑色的,应该就是伟彦官方说的麦拉,麦拉据说可以避免主板元器件阵脚对屏幕的压迫、可以避免信号干扰,还能将主板的温度隔离开来不对液晶屏造成影响,还能避免屏幕的牛顿环(水波纹)出现。看来伟彦103用4G内存应该是铁板钉钉子的事了,不知道会用64G、128G、256G还是512G的硬盘呢?用eMMC还是用SSD呢?高清屏还是分辨率呢?价格会不会如业内认为的高于窄板低于一线厂商呢?看来2015年又是一场恶战啊,谁能笑到最后呢?一起等等看好了。
顶 话说你不单单是爱好者这么简单吧?
我操10.1以下的无望了!哥,乐了!!
留名,前排
写的不错。支持!
不错!其实128emmc加就行了
据说伟彦背景深不可测
散热怎么样,是传说中的铝板散热吗?
伟彦想后发制人,打价格战?很好,这个我喜欢
刘备:军师,此次伐魏你有何妙计?
机子实际性能评测还没有吗
回复 阮岸庆 :
话说这做工怎么样?这种拆机和bt板结构不一样,不好分辨
看到这标题醉了
还有感觉后期应该是1600mhz的内存。
又见牛人留贴,火速顶啊。若是以后专说好话,怕不是被收编了?
坐等surfacepro4
---xboxlive:zzj1988。求好友
@超级硬件爱好者
华为mu736亮了。
都用上了华为,价格肯定就低不了了,到时候卖个三四千你怕不怕?怕不怕?
lz挺专业啊,最近挺高产啊。话说苦逼的cm好像要4k是吗!
大神这么神通广大,能不能帮忙打听一下OMAZ这个牌子的来龙去脉?
那个core m CPU和GPU是集成在一起的,不是分开设计的,都在那个长条形里面,铝片散热还是不错,整体设计感觉可以接受。。。。。
联想、微软这些都用蓝色主板,伟彦用绿色主板还是为了控制成本啊
关键是价位和铺货
登录百度帐号推荐应用
为兴趣而生,贴吧更懂你。或钟志远_百度百科
本词条缺少名片图,补充相关内容使词条更完整,还能快速升级,赶紧来吧!
钟志远 1974年生于江西省安远县,苏州大学特聘教授,国家杰出青年基金获得者,江苏特聘教授。苏州大学生物医用高分子材料重点实验室主任,江苏省先进功能高分子材料设计及应用重点实验室副主任。2002年荷兰屯特大学(University of Twente) 获博士学位。年荷兰屯特大学任助理教授。2007年4月起受聘为苏州大学特聘教授。[1]
钟志远简介
钟志远 男1974年2月生于江西省安远县,苏州大学特聘教授,国家杰出青年基金获得者,江苏特聘教授,德国亥姆霍兹国家究中心生物材料研究所洪堡客座教授,柏林自由大学洪堡客座教授。苏州大学生物医用高分子材料重点实验室主任,江苏省先进功能高分子材料设计及应用重点实验室副主任。1995年吉林工业大学(现吉林大学)获学士学位,1998年中国科学院长春应用化学研究所获硕士学位(导师:景遐斌研究员),2002年荷兰屯特大学(University of Twente) 获博士学位(导师:Jan Feijen 教授)。年荷兰屯特大学任助理教授。月美国犹他大学药学院访问学者。2007年4月起受聘为苏州大学特聘教授。年担任苏州工业园区生物产业发展有限公司(苏州生物纳米园)副总裁。
担任Journal Controlled Release (Elsevier),Journal of Materials Chemistry B (RSC),Biomacromolecules (ACS),Journal Biomaterials Science, Polymer Edition (Talor & Francis)等国际著名期刊编委,《中国科学:化学》英文刊SCIENCE CHINA Chemistry(Springer)青年工作委员会委员,《药学学报》英文刊Acta Pharmaceutica Sinica B (Elsevier) 编委,Journal of Controlled Release客座主编,第一、第二和第三届新型高分子材料与控制释放国际会议(SIPCD ,2014)执行组委会主席,美国材料研究学会2013年春季年会“多功能生物材料分会”共同主席,国家自然科学基金委员会专家评审组专家,中国材料研究学会高分子材料与工程分会常务理事等学术兼职。
在国际主流期刊如Prog. Polym. Sci., Nano Today, Angew. Chem. Int. Ed., J. Am. Chem. Soc., Biomaterials, J. Control. Release, Macromolecules, Biomacromolecules, J. Mater. Chem., Nanomedicine等上发表论文120多篇,2篇论文入选“中国百篇最具影响国际学术论文”,论文共被引用5800多次,H-因子41。近几年,应邀在国际学术会议上做邀请报告40多次。现主持3项国家自然科学基金项目和2项国际公司合作项目。获得的荣誉奖励包括:美国化学会期刊部和高分子委员会颁发的“2014年生物大分子/大分子青年研究者奖”、德国洪堡基金会“贝塞尔研究奖”(2013)、日本药物释放系统学会和美国控制释放学会共同颁发的“亚洲药物释放系统突破技术奖”(2013)、江苏特聘教授(2013)、江苏省333工程第二层次培养对象(2013)、苏州市十佳魅力科技人物(2013)、国家杰出青年科学基金获得者(2012)等。[2]
钟志远学习和工作经历
95.07 吉林工业大学(现吉林大学)应用化学系
98.07 中国科学院长春应用化学研究所硕士生(导师:景遐斌研究员)
02.10 荷兰屯特大学(University of Twente) 博士生(导师:Jan Feijen 教授)
07.04 荷兰屯特大学(University of Twente)生物医学技术研究所及高分子化学和生物材料系助理教授
04.11 美国犹他大学(University of Utah) 药学院 访问学者(Sung Wan Kim教授研究组)
2007.04—至今苏州大学生物医用高分子材料重点实验室苏州大学特聘教授、实验室主任:
2010.12—至今江苏省先进功能高分子材料设计及应用重点实验室副主任
12.08苏州工业园区生物产业发展有限公司(苏州生物纳米园)副总裁[2]
钟志远学术和社会兼职
1. 首届新型高分子材料与控制释放国际会议(Symposium on Innovative Polymers for Controlled Delivery, SIPCD 年9月14-17日, 苏州)执行组委会主席.
2. 第二届新型高分子材料与控制释放国际会议(2 Symposium on Innovative Polymers for Controlled Delivery, SIPCD 年9月11-14日, 苏州)执行组委会主席.
3. 第三届新型高分子材料与控制释放国际会议(3 Symposium on Innovative Polymers for Controlled Delivery, SIPCD 年9月16-19日, 苏州)执行组委会主席
4.美国材料化学学会2013年春季年会“Multifunctional Biomaterials” Symposium (MRS Spring 2013 Meeting, April 1-5, 2013, San Francisco, USA)共同主席.
5.Journal of Controlled Release客座主编((J. Control. Release, Volume 152, Issue 1, 30 May 2011).
6.Journal of Controlled Release客座主编(J. Control. Release, Volume 169, Issue 3, 10 August 2013).
7. 美国化学会期刊Biomacromolecules编委(2011.1-).
8. Elsevier期刊Journal of Controlled Release编委(2012.5-).
9.Journal of Biomaterials Science, Polymer Edition编委(2012.8-).
10. 英国皇家化学会期刊Journal of Materials Chemistry B顾问(2014.1-).
11. 《中国科学-化学》英文刊SCIENCE CHINA Chemistry (Springer)青年工作委员会委员(2014.3-).
12.《药学学报》英文刊Acta Pharmaceutica Sinica B (Elsevier)编委(2014.7-).
13.国家自然科学基金委员会专家评审组专家(2012-)。
14.德国亥姆霍兹国家究中心生物材料研究所洪堡客座教授(2013 - 2015)
15.柏林自由大学洪堡客座教授(2013 - 2015)
16.中国材料研究学会高分子材料与工程分会常务理事(2014.7-)
17.江苏省青年联合会第十和第十一届委员会委员[2]
钟志远主要研究兴趣
1) 功能性生物可降解高分子材料
2) 响应性聚合物纳米载体(胶束、囊泡、纳米粒)
3) 肿瘤的靶向治疗
4) 可注射性水凝胶和微凝胶
5) 生物纳米载体(聚合物囊泡和胶束)及肿瘤靶向治疗[2]
钟志远荣誉奖励
1. 美国化学会期刊部和高分子委员会颁发的“2014年生物大分子/大分子青年研究者奖”(2014 Biomacromolecules/Macromolecules Young Investigator Award)。
2. 德国洪堡基金会颁发的“贝塞尔研究奖”(Bessel Research Award)(2013年)
3. 亚洲药物释放系统突破技术奖(日本药物释放系统学会和美国控制释放学会联合颁发,2013年)
4. 江苏特聘教授(2013年)
5. 江苏省333工程第二层次培养对象(2013年)
6. 苏州市十佳魅力科技人物(2013年)
7. 国家杰出青年基金获得者(2012年)
8. 教育部科学技术进步二等奖(2012年,排名2)
9. 江苏省科学技术进步二等奖(2012年,排名2)
10. 年度苏州市自然科学优秀学术论文一等奖(2012年)
11. 苏州市科学技术进步二等奖(2012年,排名1)
12. 2010年中国百篇最具影响国际学术论文(中国科学技术信息研究所,2011年)
13. 2009年中国百篇最具影响国际学术论文(中国科学技术信息研究所,2010年)
14. 年度苏州市自然科学优秀学术论文一等奖(2010年)[2]
钟志远专利
1. 孟凤华,徐海飞,钟志远,界面交联的温度敏感的聚合物囊泡及其应用。授权专利号:ZL 0113.5.
2. 李玉玲,刘兆忠,周磊,孟凤华,钟志远,侧链用硫辛酸修饰的亲水性聚合物及其制备和应用。授权专利号:ZL 1922.6.
3. 朱彩虹,罗思彬,孟凤华,朱秀林,钟志远,生物可降解阳离子聚合物及其应用。授权专利号:ZL 2056.9.
4. 陈维,王荣,孟凤华,钟志远,含有丙烯酸酯类功能基团的环碳酸酯单体及其制备和应用。专利申请号:.2。
5. 刘桂景,李少科,孟凤华,钟志远, 生物可降解聚合物囊泡及其制备和应用。专利申请号:.3。
6. 钟志远,刘兆忠,郑蒙,孟凤华,一种疏水基团修饰的聚乙烯亚胺衍生物及其应用。专利申请号:.2.
7. 钟志远, 李玉玲,刘兆忠,周磊,孟凤华,一种侧链用硫辛酸修饰的亲水性聚合物。专利申请号:.4。
8. Zhiyuan Zhong,Rong Wang, Wei Chen, Fenghua Meng,Method for making an (alkyl) vinyl sulfone based polymer, such (alkyl) vinyl sulfone based polymer, a polymer article and biodevice, cyclic (alkyl) vinyl sulfone carbonate and pegylated cyclic (alkyl) vinyl sulfone carbonate,PCT, filed June 2011.
9. Wei Chen, Rong Wang, Fenghua Meng, and Zhiyuan Zhong, A method of making a polymer preferably an (alkyl)acryloyl polycarbonate, the polymer and (alkyl)acryloyl polycarbonate obtained, and a biodevice comprising same. International Application No. PCT/WO/, filed December 2009.
10. Christine Hiemstra, Zhiyuan Zhong, and Jan Feijen, Stereo Photo Hydrogel, a Process of Making Said Stereo Photo Hydrogel, Polymers for Use in Making Such Hydrogel and a Pharmaceutical Comprising Said Polymers, International Application No. PCT/EP, filing date: March 20, 2007.
Zhiyuan Zhong, Pieter J. Dijkstra, and Jan Feijen, Branched biodegradable polymers, a macromonomer, processes for the preparation of same, and their use, European Patent, 05., filing date: June 3, 2005.[1]
钟志远发表文章
1) Y.N. Zhong, C. Wang, R. Cheng, L. Cheng, F.H. Meng*, Z. Liu*, and Z.Y. Zhong*, cRGD-Directed, NIR-Responsive and Robust AuNR/PEG-PCL Hybrid Nanoparticles for Targeted Chemotherapy of Glioblastoma In Vivo, J. Control. Release 2014 (in revision)
2) W. Chen, F.H. Meng, R. Cheng, C. Deng, J. Feijen*, and Z.Y. Zhong*, Advanced Drug and Gene Delivery Systems Based on Functional Biodegradable Polycarbonates and Copolymers, J. Control. Release 2014, http://dx.doi.org/10.1016/j.jconrel..
3) Y.N. Zhong, F.H. Meng, C. Deng*, and Z.Y. Zhong*, Ligand-Directed Active Tumor-Targeting Polymeric Nanoparticles for Cancer Chemotherapy, Biomacromolecules 2014, 15, .
4) Y. Zou, Y. Song, W.J. Yang, F.H. Meng*, H.Y.Liu, and Z.Y. Zhong*, Galactose-Installed Photo-Crosslinked pH-Sensitive Degradable Micelles for Active Targeting Chemotherapy of Hepatocellular Carcinoma in Mice, J. Control. Release 2014, http://dx.doi.org/10.1016/j.jconrel.
5) Y.J. Jiang, J. Chen, C. Deng*, E. Suuronen, and Z.Y. Zhong*, Click Hydrogels, Microgels and Nanogels: Emerging Platforms for Drug Delivery and Tissue Engineering, Biomaterials 2014, 35, .
6) C. Deng, J.T. Wu, R. Cheng, F.H. Meng, H.A. Klok, and Z.Y. Zhong*, Functional Polypeptide and Hybrid Materials: Precision Synthesis via α-Amino Acid N-Carboxyanhydride Polymerization and Emerging Biomedical Applications, Prog. Polym. Sci. 2014, 39, 330-364.
7) W. Chen, Y. Zou, F.H. Meng, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, Glyco-Nanoparticles with Sheddable Saccharide Shells: A Unique and Potent Platform for Hepatoma-Targeting Delivery of Anticancer Drugs, Biomacromolecules 2014, 15, 900-907.
8) H.L. Sun, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Reduction and pH Dual-Bioresponsive Crosslinked Polymersomes for Efficient Intracellular Delivery of Proteins and Potent Induction of Cancer Cell Apoptosis, Acta Biomaterialia 2014, 10,
9) F.H. Meng, Y.N. Zhong, R. Cheng, C. Deng, and Z.Y. Zhong*, pH-sensitive polymer nanoparticles for tumor-targeting doxorubicin delivery: Concept and recent advances, Nanomedicine 2014, 9, 487-499. (invited review)
10) H.L. Sun, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Reduction-Responsive Polymeric Micelles and Vesicles for Triggered Intracellular Drug Release, Antioxidants & Redox Signaling 2014, doi:10.1089/ars. (invited forum article)
11) W.W. Guo, M. Zheng, Y.N. Zhong, F.H. Meng, C. Deng*, and Z.Y. Zhong*, Poly(ethylene oxide)-graft-methotrexate Macromolecular Drugs Conjugating via Aminopteridine Ring Exhibit Potent Anticancer Activity, Chinese Journal of Chemistry 2014, 32, 57-65.
12) Y.N. Zhong, W.J. Yang, H.L. Sun, R. Cheng, F.H. Meng, C. Deng*, and Z.Y. Zhong*, Ligand-Directed Reduction-Sensitive Shell-Sheddable Biodegradable Micelles Actively Deliver Doxorubicin into the Nuclei of Target Cancer Cells, Biomacromolecules 2013, 14, .
13) J.R. Zhou, P.P. Chen, C. Deng*, F.H. Meng, R. Cheng, and Z.Y. Zhong*, A Simple and Versatile Synthetic Strategy to Functional Polypeptides via Vinyl Sulfone-Substituted L-Cysteine N-Carboxyanhydride, Macromolecules 2013, 46, .
14) Y.P. Fan, C. Deng*, R. Cheng, F.H. Meng, and Z.Y. Zhong*, In Situ Forming Hydrogels via Catalyst-Free and Bioorthogonal “Tetrazole–Alkene” Photo-Click Chemistry, Biomacromolecules 2013, 14, .
15) X.Y. Wang, H.L. Sun, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Galactose-Decorated Reduction-Sensitive Degradable Chimaeric Polymersomes as a Multifunctional Nanocarrier To Efficiently Chaperone Apoptotic Proteins into Hepatoma Cells, Biomacromolecules 2013, 14, .
16) Y.D. Gu, Y.N. Zhong, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Acetal-Linked Paclitaxel Prodrug Micellar Nanoparticles as a Versatile and Potent Platform for Cancer Therapy, Biomacromolecules 2013, 14, .
17) Y.N. Zhong, W. Wang, L. Cheng, F.H. Meng, Z.Y. Zhong*, and Z. Liu*, Gold Nanorod-Cored Biodegradable Micelles as a Robust and Remotely Controllable Doxorubicin Release System for Potent Inhibition of Drug-Sensitive and -Resistant Cancer Cells, Biomacromolecules 2013, 14, .
18) L.L. Wu, Y. Zou, C. Deng*, R. Cheng, F.H. Meng, and Z.Y. Zhong*, Intracellular Release of Doxorubicin from Core-Crosslinked Polypeptide Micelles Triggered by Both pH and Reduction Conditions,Biomaterials 2013, 34, .
19) W. Chen, M. Zheng, F.H. Meng, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, In Situ Forming Reduction-Sensitive Degradable Nanogels for Facile Loading and Triggered Intracellular Release of Proteins, Biomacromolecules 2013, 14, .
20) H.L. Sun, F.H. Meng*, R. Cheng, C. Deng, and Z.Y. Zhong*, Reduction-Sensitive Degradable Micellar Nanoparticles as Smart and Intuitive Delivery Systems for Cancer Chemotherapy, Expert Opin. Drug Deliv. 2013, 10, .
21) R. Cheng, F.H. Meng, C. Deng, H.A. Klok, and Z.Y. Zhong*, Dual and Multi-Stimuli Responsive Polymeric Nanoparticles for Programmed Site-Specific Drug Delivery, Biomaterials 2013, 34, .
22) J. Feijen, and Z.Y. Zhong*, The Second Symposium on Innovative Polymers for Controlled Delivery, September 11-14, 2012, Suzhou, China, J. Control. Release 2013, 169, 163-164.
23) W. Chen, P. Zhong, F.H. Meng*, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, Redox and pH-Responsive Degradable Micelles for Dually Activated Intracellular Anticancer Drug Release, J. Control. Release 2013, 169, 171-179.
24) J. Feijen, W.E. Hennink?, and Z.Y. Zhong*, Conference Scene: From Innovative Polymers To Advanced Nanomedicine: Key Challenges, Recent Progress and Future Perspectives, Nanomedicine 2013, 8, 177-180.
25) W. Chen, Y. Zou, J.N. Jia, F.H. Meng, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, Functional Poly(ε-caprolactone)s via Copolymerization of ε-Caprolactone and Pyridyl Disulfide-Containing Cyclic Carbonate: Controlled Synthesis and Facile Access to Reduction-Sensitive Biodegradable Graft Copolymer Micelles, Macromolecules 2013, 46, 699-707.
26) F.H. Meng, R. Cheng, C. Deng, and Z.Y. Zhong*, Intracellular Drug Release Nanosystems, Materials Today 2012, 15, 436-442 (invited review)
27) Y.L. Wu, W. Chen, F.H. Meng, Z.J. Wang, R. Cheng, C. Deng, H.Y. Liu, and Z.Y. Zhong*, Core-Crosslinked pH-Sensitive Degradable Micelles: A Promising Approach to Resolve the Extracellular Stability Versus Intracellular Drug Release Dilemma, J. Control. Release 2012, 164, 338-345.
28) C. Deng, Y.J. Jiang, R. Cheng, F.H. Meng, and Z.Y. Zhong*, Biodegradable Polymeric Micelles for Targeted and Controlled Anticancer Drug Delivery: Promises, Progress and Prospects, Nano Today 2012, 7, 467-480 (invited review)
29) R.R. Wei, L. Cheng, M. Zheng, R. Cheng, F.H. Meng, C. Deng, and Z.Y. Zhong*, Reduction-Responsive Disassemblable Core-Cross-Linked Micelles Based on Poly(ethylene glycol)-b-poly(N-2-hydroxypropyl methacrylamide)–Lipoic Acid Conjugates for Triggered Intracellular Anticancer Drug Release, Biomacromolecules 2012, 13, .
30) S.K. Li, F.H. Meng, Z.J. Wang, Y.N. Zhong, M. Zheng, H.Y. Liu, and Z.Y. Zhong*, Biodegradable Polymersomes with An Ionizable Membrane: Facile Preparation, Superior Protein Loading, And Endosomal pH-Responsive Protein Release, Eur. J. Pharm. Biopharm. 2012, 82, 103-111 (invited article)
31) Y.F. Du, W. Chen, M. Zheng, F.H. Meng, and Z.Y. Zhong*, pH-Sensitive Degradable Chimaeric Polymersomes for the Intracellular Release of Doxorubicin Hydrochloride, Biomaterials 2012, 33, .
32) R. Cheng, X.Y. Wang, W. Chen, F.H. Meng, C. Deng, H.Y. Liu, and Z.Y. Zhong*, Biodegradable Poly(ε-caprolactone)-g-Poly(2-hydroxyethyl methacrylate) Graft Copolymer Micelles as Superior Nano-Carriers for “Smart” Doxorubicin Release, J. Mater. Chem. 2012, 22, .
33) M. Zheng, Z.H. Zhong, L. Zhou, F.H. Meng, R. Peng, and Z.Y. Zhong*, Poly(ethylene oxide) Grafted with Short Polyethylenimine Gives DNA Polyplexes with Superior Colloidal Stability, Low Cytotoxicity and Potent In Vitro Gene Transfection Under Serum Conditions, Biomacromolecules 2012, 13, 881–888.
34) W. Wang, H.L. Sun, F.H. Meng, S.B. Ma, H.Y. Liu, and Z.Y. Zhong*, Precise Control of Intracellular Drug Release and Anti-Tumor Activity of Biodegradable Micellar Drugs Via Reduction-Sensitive Shell-Shedding, Soft Matter 2012, 8, .
35) C.H. Zhu, M. Zheng, F.H. Meng, F.M. Mickler, N. Ruthardt, X.L. Zhu, and Z.Y. Zhong*, Reversibly Shielded DNA Polyplexes Based on Bioreducible PDMAEMA-SS-PEG-SS-PDMAEMA Triblock Copolymers Mediate Markedly Enhanced Nonviral Gene Transfection,Biomacromolecules 2012, 13, 769–778.
36) J.C. Zhang, L.L. Wu, F.H. Meng, Z.J. Wang, C.Deng, H.Y. Liu, and Z.Y. Zhong*, pH and Reduction Dual-Bioresponsive Polymersomes for Efficient Intracellular Protein Delivery, Langmuir 2012, 28, . (invited article)
37) M. Zheng, C.M. Yang, F.H. Meng, R. Peng, and Z.Y. Zhong*, pH-Sensitive Degradable Hydrophobe Modified 1.8 kDa Branched Polyethylenimine, as “Artificial Viruses” for Safe and Efficient Intracellular Gene Transfection, Macromol. Res. 2012, 20, 327-334 (Invited Article)
38) F.X. Zhan, W. Chen, Z.J. Wang, W.T. Lu, R. Cheng, C. Deng, F.H. Meng, H.Y. Liu and Z.Y. Zhong*, Acid-Activatable Prodrug Nanogels for Efficient Intracellular Doxorubicin Release, Biomacromolecules 2011, 12, .
39) R. Cheng, F.H. Meng, S.B. Ma, H.F. Xu, H.Y. Liu, X.B. Jing, and Z.Y. Zhong*, Reduction and Temperature Dual-Responsive Crosslinked Polymersomes for Targeted Intracellular Protein Delivery, J. Mater. Chem. 2011, 21, .
40) M. Zheng, Y.N. Zhong,F.H. Meng, R. Peng, and Z.Y. Zhong*, Lipoic Acid Modified Low Molecular Weight Polyethylenimine Mediates Nontoxic and Highly Potent In Vitro Gene Transfection,Mol. Pharmaceutics,2011,8, .
41) Z.Z. Liu, M. Zheng, F.H. Meng, and Z.Y. Zhong*, Non-Viral Gene Transfection In Vitro Using Endosomal pH-Sensitive Reversibly Hydrophobilized Polyethylenimine, Biomaterials 2011, 32, .
42) R. Wang, W. Chen, F.H. Meng, R. Cheng, C. Deng, J. Feijen, and Z.Y. Zhong*, Unprecedented Access to Functional Biodegradable Polymers and Coatings, Macromolecules 2011, 44, .
43) Y.H. Cong, H. Liu, D.L. Wang, B.J. Zhao, T.Z. Yan, L.B. Li , W. Chen, Z.Y. Zhong , M.-C. Lin, H.-L. Chen, and C.L. Yang, Stretch-Induced Crystallization through Single Molecular Force Generating Mechanism, Macromolecules 2011, 44, .
44) J. Chen, W. Chen, C. Deng, F.H. Meng, and Z.Y. Zhong*, Controlled Surface-Initiated Ring-Opening Polymerization of L-Lactide from Risedronate-Anchored Hydroxyapatite Nanocrystals: Novel Synthesis of Biodegradable Hydroxyapatite/Poly(L-lactide) Nanocomposites, J. Polym. Sci. Part A: Polym. Chem. 2011, 49, .
45) R. Yang, F.H. Meng, S.B. Ma, F.S. Huang, H.Y. Liu, and Z.Y. Zhong*, Galactose-Decorated Crosslinked Biodegradable Poly(Ethylene Glycol)-b-Poly(ε-Caprolactone) Block Copolymer Micelles for Enhanced Hepatoma-Targeting Delivery of Paclitaxel, Biomacromolecules 2011, 12, .
46) Y.X. Yu, C. Deng, F.H. Meng, Q. Shi, J. Feijen, and Z.Y. Zhong*, Novel Injectable Biodegradable Glycol Chitosan-Based Hydrogels Crosslinked by Michael-Type Addition Reaction with Oligo(acryloyl carbonate)-b-Poly(ethylene glycol)-b-Oligo(acryloyl carbonate) Copolymers, J. Biomed. Mater. Res. Part A 2011, 99A, 316-326.
47) S.B. Luo, R. Cheng, F.H. Meng, T.G. Park, and Z.Y. Zhong*, Water Soluble Poly(histamine acrylamide) with Superior Buffer Capacity Mediates Efficient and Nontoxic In Vitro Gene Transfection, J. Polym. Sci. Part A: Polym. Chem. 2011, 49, .
48) F.H. Meng, and Z.Y. Zhong*,Polymersomes Spanning from Nano to Micro Scales: Advanced Vehicles for Controlled Drug and Robust Vesicles for Virus and Cell-MimickingJ. Phys. Chem. Letters 2011, 2, . (Invited Perspective)
49) H.L. Sun, F.H. Meng, A.A. Dias, M. Hendriks, J. Feijen, and Z.Y. Zhong*, a-Amino Acid Containing Degradable Polymers as Functional Biomaterials: Rational Design, Synthetic Pathway and Biomedical Applications, Biomacromolecules 2011, 12, .
50) J. Xiong, F.H. Meng, C. Wang, R. Cheng, Z. Liu, and Z.Y. Zhong*, Folate-Conjugated Crosslinked Biodegradable Micelles for Receptor-Mediated Delivery of Paclitaxel, J. Mater. Chem. 2011, 21, .
51) L. Zhou, R. Cheng, H.Q. Tao, S.B. Ma, W.W. Guo, F.H. Meng, H.Y. Liu, Z. Liu, and Z.Y. Zhong*, Endosomal pH-Activatable Poly(ethylene oxide)-graft-Doxorubicin Prodrugs: Synthesis, Drug Release, and Biodistribution in Tumor-Bearing Mice, Biomacromolecules 2011, 12, .
52) Y.H. Wang, M. Zheng, F.H. Meng, J. Zhang, R. Peng, and Z.Y. Zhong*, Branched Polyethylenimine Derivatives with Reductively Cleavable Periphery for Safe and Efficient In Vitro Gene Transfer, Biomacromolecules 2011, 12, .
53) R. Cheng, F. Feng, F.H. Meng, C. Deng, J. Feijen, Z.Y. Zhong*, Glutathione-Responsive Nano-Vehicles as a Promising Platform for Targeted Intracellular Drug and Gene Delivery, J. Control. Release 2011, 152, 2-12.
54) Z.Y. Zhong*, and J. Feijen, The First Symposium on Innovative Polymers for Controlled Delivery, September 14-17, 2010, Suzhou, China, J. Control. Release 2011, 152, 1-1.
55) G.J. Liu, S.B. Ma, S.K. Li, R. Cheng, F.H. Meng,*, H.Y. Liu, Z.Y. Zhong*, The highly efficient delivery of exogenous proteins into cells mediated by biodegradable chimaeric polymersomes, Biomaterials 2010, 31, .
56) R. Jin, L.S. MoreiraTeixeira, P.J. Dijkstra, Z.Y. Zhong, C.A. van Blitterswijk, M. Karperien, J. Feijen, Enzymatically crosslinked dextran-tyramine hydrogels as injectable scaffolds for cartilage tissue engineering, Tissue Engineering Part A. 2010,16, .
57) C.H. Zhu, S.Y. Jung, G.Y. Si, R. Cheng, F.H. Meng*, X.L. Zhu, T.G. Park, and Z.Y. Zhong*, Cationic methacrylate copolymers containing primary and tertiary amino side groups: controlled synthesis via RAFT polymerization, DNA condensation, and in vitro gene transfection, J. Polym. Sci. Part A: Polym. Chem. 2010, 48, .
58) H.L. Sun, F.H. Meng*, B.N. Guo, X.Q. Li, R. Cheng, H.Y. Liu, and Z.Y. Zhong*, Shell-sheddable micelles based on dextran-ss-poly(e-caprolactone) diblock copolymer for efficient intracellular release of doxorubicin, Biomacromolecules 2010, 11, 848–854.
59) R. Namgung, J.H. Brumbach, J.H. Jeong, J.W. Yockman, S.W. Kim, C. Lin, Z.Y. Zhong, J. Feijen, J.F.J. Engbersen, and W.J. Kim*, Dual bio-responsive gene delivery via reducible poly(amido amine) and survivin-inducible plasmid DNA, Biotechnol. Lett. 2010, 32, 755-764.
60) C.H. Zhu, S.Y. Jung, S.B. Luo, F.H. Meng, X.L. Zhu, T.G. Park, and Z.Y. Zhong*, Co-delivery of siRNA and Paclitaxel into Cancer Cells by Biodegradable Cationic Micelles Based on PDMAEMA-PCL-PDMAEMA Triblock Copolymers, Biomaterials 2010, 31, .
61) W. Chen, F.H. Meng*, R. Cheng, and Z.Y. Zhong*, pH-Sensitive Degradable Polymersomes for Triggered Release of Anticancer Drugs: a Comparative Study with Micelles, J. Control. Release 2010, 142, 40-46.
62) W. Chen, H.C. Yang, R. Wang, R. Cheng, F.H. Meng*, W.X. Wei, and Z.Y. Zhong*, Versatile Synthesis of Functional Biodegradable Polymers by Combining Ring-Opening Polymerization and Postpolymerization Modification via Michael-Type Addition Reaction, Macromolecules 2010, 43, 201–207.
63) J.M. Jukes, L.J. van der Aa, C. Hiemstra, T. van Veen, P.J. Dijkstra, Z.Y. Zhong, J. Feijen, C.A. van Blitterswijk, J. de Boer, A newly developed chemically crosslinked Dex-PEG hydrogel for cartilage tissue engineering, Tissue Engineering Part A. 2010, 16: 565-573.
64) Y.L. Li, L. Zhu, Z.Z. Liu, R. Cheng, F.H. Meng*, J.H. Cui, S.J. Ji, and Z.Y. Zhong*, Reversibly Stabilized Multifunctional Dextran Nanoparticles Efficiently Deliver Doxorubicin into the Nuclei of Cancer Cells, Angew. Chem. Int. Ed. 2009, 48, .
65) Y.M. Xu, F.H. Meng*, R. Cheng, Z.Y. Zhong*, Reduction-Sensitive Reversibly Crosslinked Biodegradable Micelles for Triggered Release of Doxorubicin, Macromol. Biosci. 2009, 9, .
66) H.Z. Du, A.H. Velders, P.J. Dijkstra, Z.Y. Zhong, X.S. Chen, J. Feijen, Chiral Salan Aluminum Ethyl Complexes and Their Application in Lactide Polymerization, Chem.-Eur. J. 2009, 15: .
67) H.L. Sun, B.N. Guo, R. Cheng, F.H. Meng *, H.Y. Liu, Z.Y. Zhong*, Biodegradable micelles with sheddable poly(ethylene glycol) shells for triggered intracellular release of doxorubicin,Biomaterials2009, 30: .
68) W. Chen, F.H. Meng, F. Li, S.-J. Ji, Z.Y. Zhong*, pH-Responsive Biodegradable Micelles Based on Acid-Labile Polycarbonate Hydrophobe: Synthesis and Triggered Drug Release, Biomacromolecules 2009, 10: .
69) H.F. Xu, F.H. Meng*, Z.Y. Zhong*, Reversibly crosslinked temperature-responsive nano-sized polymersomes: synthesis and triggered drug release, J. Mater. Chem. 2009, 19: .
70) F.H. Meng, W.E.Hennink, Z.Y. Zhong*, Reduction-Sensitive Polymers and Bioconjugates for Biomedical Applications, Biomaterials 2009, 30:.
71) R. Jin, L.S. Moreira Teixeira, P.J. Dijkstra, M. Karperien, Z.Y. Zhong, J. Feijen, Injectable Chitosan-based Hydrogels for Cartilage Tissue Engineering, Biomaterials 2009, 30:
72) H.Z. Du, A.H. Velders, P.J. Dijkstra, Z.Y. Zhong, X.S. Chen, J. Feijen, Polymerization of lactide using achiral bis(pyrrolidene) schiff base aluminum complexes, Macromolecules 2009, 42: .
73) F.H. Meng, Z.Y. Zhong*, J. Feijen, Stimuli-responsive polymersomes for programmed drug delivery. Biomacromolecules 2009, 10: 197-209.
74) C. Lin, C.-J. Blaauboer, M. Mateos Timoneda, M.C. Lok, M. van Steenbergen, W.E. Hennink, Z.Y. Zhong, J. Feijen, and J.F.J. Engbersen, Bioreducible poly(amido amine)s with oligoamine side chains: Synthesis, characterization, and structural effects on gene delivery, J. Control. Release, 2008, 126: 166-174.
75) C. Lin, Z.Y. Zhong, M.C. Lok, Holger K. de Wolf, W.E. Hennink, J. Feijen, J.F.J. Engbersen, Bioreducible poly(amido amine)s for gene delivery to ovarian cancer cells, J. Control. Release, 2008, 132: e9-e10.
76) R. Jin, L.S. Moreira Teixeira, P.J. Dijkstra, M. Karperien, Z. Zhong, J. Feijen, Fast in-situ formation of dextran-tyramine hydrogels for in vitro chondrocyte culturing, J. Control. Release, 2008, 132: e24-e26.
77) C. Hiemstra, W. Zhou, Z.Y. Zhong*, M. Wouters, and J Feijen*, Rapidly in situ forming biodegradable robust hydrogels by combining stereocomplexation and photopolymerization, J. Am. Chem. Soc. 2007, 129: .
78) M. Roerdink, T.S. van Zanten, M.A. Hempenius, Z.Y. Zhong, J. Feijen, and G.J. Vancso, Poly(ferrocenylsilane-block-lactide) Block copolymers, Macromol.Rapid Commun.2007, 28: .
79) C. Lin, Z.Y. Zhong*, M.C. Lok, X.L. Jiang, W.E. Hennink, J. Feijen, and J.F.J. Engbersen*, Random and block copolymers of bioreducible poly(amido amine)s with high-and low-basicity amino groups: study of DNA condensation and buffer capacity on gene transfection, J. Control. Release, 2007, 123: 67-75.
80) C. Hiemstra, Z.Y. Zhong*, M. J. van Steenbergen, W.E. Hennink, and J. Feijen*, Release of model proteins and basic fibroblast growth factor from in situ forming degradable dextran hydrogels, J. Control. Release 2007, 122: 71-78.
81) C. Hiemstra, Z.Y. Zhong*, S.R. van Tomme, M. J. van Steenbergen, J.J.L. Jacobs, W. den Otter, W.E. Hennink, and Jan Feijen*, In vitro and in vivo protein delivery from in situ forming poly(ethylene glycol)-poly(lactide) hydrogels, J. Control. Release 2007, 119: 320-327.
82) C. Hiemstra, L.J. van der Aa, Z.Y. Zhong*, and J. Feijen*, Rapidly in situ forming degradable hydrogels from dextran thiols through Michael addition, Biomacromolecules2007, 8: .
83) F. Rusmini, Z.Y. Zhong*, and J. Feijen*, Protein immobilization strategies for protein biochips, Biomacromolecules 2007, 8: .
84) R. Jin, C. Hiemstra, Z.Y. Zhong*, and J. Feijen*, Enzyme-mediated fast in-situ formation of hydrogels from dextran-tyramine conjugates, Biomaterials 2007, 28: .
85) C. Hiemstra, L.J. van der Aa, Z.Y. Zhong*, P.J. Dijkstra, and J. Feijen*, Novel in situ forming, degradable dextran hydrogels by Michael addition chemistry: synthesis, rheology and degradation, Macromolecules 2007, 40: .
86) L.V. Christensen, C.W. Chang, J.W. Yockman, R. Conners, H. Jackson, D.A. Bull, Z.Y. Zhong, J. Feijen, and S.W. Kim, Reducible poly(amido ethylenediamine) for hypoxia-inducible VEGF delivery, J. Control. Release 2007, 118: 254-261.
87) J.H. Jeong, L.V. Christensen, J.W. Yockman, Z.Y. Zhong, J.F.J. Engbersen, W.J. Kim, J. Feijen, S.W. Kim, Reducible poly(amido ethylenimine) directed to enhance RNA interference, Biomaterials 2007, 28: .
88) C. Lin, Z.Y. Zhong*, M.C. Lok, X.L. Jiang, W.E. Hennink, J. Feijen, and J.F.J. Engbersen*, Novel bioreducible poly(amido amine)s for highly efficient gene delivery, Bioconjugate Chem. 2007,18: 138-145.
89) L.B. Li, F.H. Meng, Z.Y. Zhong, D. Byelov, W.H. de Jeu, and J. Feijen, Morphology of a highly asymmetric double crystallizable poly(e-caprolactone-b-ethylene oxide) block copolymer, J. Chem. Phys., 2007, 126: Art. No. 024904.
90) M.R. ten Breteler, Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Ring-opening polymerization of substituted e-caprolactones using a chiral (salen) AlOiPr-Complex, J. Polym. Sci. Part A, Polym. Chem. 2007, 45: 429-436.
91) C. Lin, Z.Y. Zhong*, M.C. Lok, X.L. Jiang, W.E. Hennink, J. Feijen, and J.F.J. Engbersen*, Linear poly(amido amine)s with secondary and tertiary amino groups and variable amounts of disulfide linkages: synthesis and in vitro gene transfer properties, J. Control. Release, 2006, 116: 130-137.
92) C. Hiemstra, Z.Y. Zhong, X. Jiang, W.E. Hennink, P.J. Dijkstra, and J. Feijen, PEG-PLLA and PEG-PDLA multiblock copolymers: synthesis and in situ hydrogel formation by stereocomplexation, J. Control. Release,2006, 116: e17-e19.
93) C. Hiemstra, Z.Y. Zhong, S.R. van Tomme, W.E. Hennink, P.J. Dijkstra, and J. Feijen, Protein release from injectable stereocomplexed hydrogels based on PEG-PDLA and PEG-PLLA star block copolymers, J. Control. Release, 2006, 116: e19-e21.
94) C. Lin, T.M. Lammens, Z.Y. Zhong, H. Gu, M.C. Lok, X. Jiang, W.E. Hennink, J. Feijen, and J.F.J. Engbersen, Disulfide-containing poly(β-amino ester)s for gene delivery, J. Control. Release, 2006, 116: e79-e81.
95) Z.Y. Zhong*, C. Lin, Y. Ma, M.A. Hempenius, M.C. Lok, M.M. Fretz, J.F.J. Engbersen, G.J. Vancso, W.E. Hennink, and J. Feijen, Water-soluble cationic poly(ferrocenylsilane): an efficient DNA condensation and transfection agent, J. Control. Release, 2006, 116: e81-e83.
96) C. Hiemstra, Z.Y. Zhong*, L.B. Li, P.J. Dijkstra, and J. Feijen*, In situ formation of biodegradable hydrogels by stereocomplexation of PEG-(PLLA)8 and PEG-(PDLA)8 star block copolymers, Biomacromolecules 2006, 7: .
97) L.V. Christensen, C.W. Chang, W.J. Kim, S.W. Kim*, Z.Y. Zhong*, C. Lin, J.F.J. Engbersen*, and J. Feijen, Reducible poly(amido ethylenimine)s designed for triggered intracellular gene delivery, Bioconjugate Chem., 2006, 17: .
98) M. Leemhuis, C.F. van Nostrum, J.A.W. Kruijtzer, Z.Y. Zhong, M.R. ten Breteler, P.J. Dijkstra, J. Feijen, and W.E. Hennink, Functionalized poly(-hydroxy acid)s via ring-opening polymerization: toward hydrophilic polyesters with pendant hydroxyl groups, Macromolecules, 2006, 39: .
99) G. Engbers, A. Poot, D. Grijpma, Z.Y. Zhong, and P. Dijkstra, Professor Jan Feijen-30 years research in biomedical technology, J. Control. Release 2005, 109: 2-4.
100) Z.Y. Zhong, J. Feijen, M.C. Lok, W.E. Hennink, L. Christensen, J.W. Yockman, Y.-H. Kim, and S.W. Kim, Low molecular weight linear polyethylenimine-b-poly(ethylene glycol)-b-polyethylenimine triblock copolymers: synthesis, characterization and in vitro gene transfer properties, Biomacromolecules, 40-3448.
101) Z.Y. Zhong, Y. Song, J.F.J. Engbersen, M.C. Lok, W.E. Hennink, and J. Feijen, A versatile family of degradable non-viral gene carriers based on hyperbranched poly(ester amine)s. J. Control. Release : 317-329.
102) C. Hiemstra, Z.Y. Zhong, P. Dijkstra, and J. Feijen, Stereocomplex mediated gelation of PEG-(PLA)(2) and PEG-(PLA)(8) block copolymers. Macromol. Symp., : 119-131.
103) Z. Zhong, M.C. Lok, P.J. Dijkstra, W.E. Hennink, and J. Feijen, Structurally well-defined copolymers of poly(ethylene glycol) and low molecular weight linear polyethylenimine as vectors for gene delivery. J. Control. Release, -3): 406-408.
104) C. Hiemstra, Z. Zhong, P.J. Dijkstra, and J. Feijen, PEG-PLA hydrogels by stereocomplexation for tissue engineering of cartilage. J. Control. Release, -3): 332-334.
105) G. Becker, M. Niemeyer, O. Mundt, W. Schwarz, M. Westerhausen, M.W. Ossberger, P. Mayer, H. Noth, Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Crystal structures and spectroscopic properties of 2 lambda(3)-phospha-1,3-dionates and 1,3-dionates of calcium - Comparative studies on the 1,3-diphenyl and 1,3-Di(tert-butyl) derivatives. Z. Anorg. Allg. Chem., ): .
106) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Controlled synthesis of biodegradable lactide polymers and copolymers using novel in situ generated or single-site stereoselective polymerization initiators. J. Biomater. Sci.-Polym. Ed., ): 929-946.
107) L.B. Li, Z.Y. Zhong, W.H. de Jeu, P.J. Dijkstra, and J. Feijen, Crystal structure and morphology of poly(L-lactide-b-D-lactide) diblock copolymers. Macromolecules, ): .
108) M. Westerhausen, S. Schneiderbauer, A.N. Kneifel, Y. Soltl, P. Mayer, H. Noth, Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Organocalcium compounds with catalytic activity for the ring-opening polymerization of lactones. Eur. J. Inorg. Chem., 2003, (18): .
109) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Determination of the Stereoselectivity Factor for an Asymmetric Enantiomer-Differentiating Polymerization: a Revisit. Macromolecules, ): .
110) Z.Y. Zhong, S. Schneiderbauer, P.J. Dijkstra, W. M., and J. Feijen, Single-site calcium initiators for the controlled ring-opening polymerization of lactides and lactones. Polym. Bull., 5-182.
111) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, controlled and stereoselective polymerization of lactide: kinetics, selectivity, and microstructures. J. Am. Chem. Soc., ): .
112) A.P. Pego, Z.Y. Zhong, P.J. Dijkstra, D.W. Grijpma, and J. Feijen, Influence of catalyst and polymerization conditions on the properties of 1,3-trimethylene carbonate and epsilon- caprolactone copolymers. Macromol. Chem. Phys., -6): 747-754.
113) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, [(salen)Al]-mediated, controlled and stereoselective ring-opening polymerization of lactide in solution and without solvent: Synthesis of highly isotactic polylactide stereocopolymers from racemic D,L-lactide. Angew. Chem. Int. Edit., ): .
114) Z.Y. Zhong, P.J. Dijkstra, J. Feijen, Y.M. Kwon, Y.H. Bae, and S.W. Kim, Synthesis and aqueous phase behavior of thermoresponsive biodegradable poly(D,L-3-methylglycolide)-block-poly(ethylene glycol)-block-poly(D,L-3-methylglycolide) triblock copolymers. Macromol. Chem. Phys., ): .
115) Z.Y. Zhong, S. Schneiderbauer, P.J. Dijkstra, M. Westerhausen, and J. Feijen, Fast and living ring-opening polymerization of L-lactide initiated with in-situ-generated calcium alkoxides. J. Polym. Environ., ): 31-38.
116) Z.Y. Zhong, M.J.K. Ankone, P.J. Dijkstra, C. Birg, M. Westerhausen, and J. Feijen, Calcium methoxide initiated ring-opening polymerization of epsilon-caprolactone and L-lactide. Polym. Bull., ): 51-57.
117) Z.Y. Zhong, P.J. Dijkstra, C. Birg, M. Westerhausen, and J. Feijen, A novel and versatile calcium-based initiator system for the ring-opening polymerization of cyclic esters. Macromolecules, ): .
118) Z.Y. Zhong, P.J. Dijkstra, and J. Feijen, Controlled ring-opening polymerization of omega- pentadecalactone with yttrium isopropoxide as an initiator. Macromol. Chem. Phys., ): .
119) Z.Y. Zhong, D.H. Yu, F.H. Meng, Z.H. Gan, and X.B. Jing, Controlled synthesis of L-lactide-b-epsilon-caprolactone block copolymers using a rare earth complex as catalyst. Polym. J., ): 633-636.
120) Z.H. Gan, D.H. Yu, Z.Y. Zhong, Q.Z. Liang, and X.B. Jing, Enzymatic degradation of poly(epsilon-caprolactone)/poly(DL- lactide) blends in phosphate buffer solution. Polymer, ): .
121) J. Zhang, Z.H. Gan, Z.Y. Zhong, and X.B. Jing, A novel rare earth coordination catalyst for polymerization of biodegradable aliphatic lactones and lactides. Polym. Int., ): 60-66.[1]
钟志远部分国际会议邀请报告
1. Plenary lecture “Robust Biodegradable Nanoparticles with Active Tumor-Targeting and Programmed Drug Release”, 13 European Symposium on Controlled Drug Delivery (ESCDD 2014, April 16-18, 2014, Egmond aan Zee, The Netherlands)
2. Invited lecture “Design of Bio-Responsive Polymeric Nanosystems for Active Anticancer Drug, Protein, and Gene Delivery”, Seminar Nanobiotechnology Munich (January 28, 2014, Ludwig-Maximilians-University Munich, Germany)
3. Invited lecture “Design of Stimuli-Sensitive Biodegradable Polymeric Nanosystems for Precision Anticancer Drug Release”, The 13th Pacific Polymer Conference (PPC 2013, November 17-22, 2013, Kaohsiung,Taiwan)
4. Invited lecture “Biodegradable Nanoparticles for Targeted Anticancer Drug Delivery: Dilemma of Extracellular Stability versus Intracellular Drug Release”, 3rd Sino-German Symposium on Nanomaterials for Biomedical Applications (October 28-30, 2013, Hangzhou,China)
5. Invited lecture “Bioresponsive Biodegradable Micelles and Polymersomes for Targeted Intracellular Drug Delivery”, 246 ACS National Meeting (September 8 -12, 2013, Indianapolis,USA)
6. Invited lecture “From Functional Biodegradable Polymers To Targeted Drug and Protein Delivery” (August 16, 2013, Freie Universit?t Berlin,Germany)
7. Invited lecture “Bioresponsive Degradable Nanocarriers for Active Intracellular Anticancer Drug Delivery”, Controlled Release Society's 40th Annual Meeting and Exposition (July 21-24, 2013, Honolulu, Hawaii,USA)
8. Invited lecture “Bioresponsive Degradable Micelles and Polymersomes for Active Intracellular Drug Release in Cancer Cells”, Joint Symposium of the 5th Utah-Inha DDS & Advanced Therapeutics Research Center Symposium and the 7th International Symposium on Intelligent DDS (May 23-24, 2013, Incheon, Korea)
9. Invited lecture “Bioresponsive Nanosystems for Active Intracellular Drug and Protein Delivery”, 2013 MRS Spring Meeting & Exhibit (April 1-5, 2013, San Francisco,USA)
10. Invited lecture “From Functional Biodegradable Polymers To Controlled Drug Release Systems”, Symposium on Collaborations in Medical Bionics (December 8, 2012, Beijing,China)
11. Invited lecture “Novel Design and Synthesis of Functional Biodegradable Polymers and Nano-Carriers”, 244 ACS National Meeting (August 19-23, 2012, Philadelphia,USA)
12. Invited lecture “From Functional Biodegradable Polymers To Advanced Drug Delivery Systems”, 2012 World Polymer Congress (MACRO 2012, June 24-29, 2012, Virginia, USA)
13. Invited lecture “Nano-Carriers for Targeted Drug Delivery: Issues of Stability Versus Drug Release”, 12 European Symposium on Controlled Drug Delivery (ESCDD 2012, April 4-6, 2012, Egmond aan Zee, The Netherlands)
14. Invited lecture “Biodegradable Nano-Carriers for Drug, Protein and Gene Delivery: Promise, Problems and Prospects”, Seminar of Institute of Bioengineering and Nanotechnology (IBN) (January 4, 2012,Singapore)
15. Invited lecture “Versatile Synthesis and Biomedical Applications of Functional Biodegradable Polymers”, The 5th International Symposium on Polymer Chemistry (PC2012, June 2-6, 2012, Changchun,China)
16. Invited lecture “Bio-Responsive Nano-carriers for Efficient Intracellular Drug and Gene Delivery”, 12 Pacific Polymer Conference (PPC 12, November 13-17, 2011, Jeju Island,South Korea)
17. Invited lecture “Reduction-Responsive Nano-Carriers for Targeted Intracellular Drug Delivery”, 3 Asian Biomaterials Congress (September 15-17, 2011, Busan,South Korea)
18. Invited lecture “Multifunctional Biomaterials and Polymer-based Controlled Drug Release Systems”, 2 Sino-German Symposium on Multifunctional Biomaterials and Polymer-based Controlled Drug Release Systems (October 27-30, 2011, Berlin,Germany)
19. Invited lecture “Novel Synthesis of Functional Biodegradable Polymers based on Designed Cyclic Carbonate Monomers”, 3 International Conference on Bio-based Polymers (ICBP 2011, October 18-21, 2011, Beijing,China)
20. Invited lecture “Nano-Vehicles for Targeted Drug Delivery: Issues of Stability versus Drug Release”, The International Symposium on Functional Polymers and Nanomedicine (May 15-18, 2011, Hangzhou,China)
21. Invited lecture “Novel PDMAEMA and PEI-Based Gene Vectors”, 10 China-Japan-Korea Foresight Joint Symposium on Gene Delivery and International Symposium on Biomaterials(May 29-June 2, 2011, Guilin, China)
22. Invited lecture “pH and Reduction-Responsive Nano-Vehicles for Intracellular Protein and Drug Delivery”, 2011 International Advanced Drug Delivery Symposium (April 27-28, 2011,Taiwan)
23. Invited lecture “Reduction-Responsive Nano-Carriers for Intracellular Delivery of Anticancer Drugs”, The Third Sino-German Frontiers of Chemistry Symposium (August 12-15, 2010, Seeon,Germany)
24. Invited lecture “Bioresponsive Nano-Vehicles for Drug and Gene Delivery”, International Symposium on Polymer Chemistry (PC 2010, June 2-5, 2010, Suzhou,China)
25. Invited lecture “Reduction-Responsive Nano-Carriers for Targeted Intracellular Drug Delivery”, Sino-German Symposium on Bioinspired Systems for Drug, Protein and Gene Delivery (September 6-9, 2010, Chengdu, China)
26. Invited lecture “Stimuli-Sensitive Nano-carriers for Triggered Intracellular Drug Delivery”, 2 Sino-Canadian Conference of Advanced Materials (May 15-17, 2010, Suzhou,China)
27. Invited lecture “Stimuli-Responsive Biodegradable Micelles and Polymersomes for Triggered Drug Delivery”, 13 International IUPAC Conference on Polymers and Organic Chemistry (July 5 - 8, 2009, Montréal,Canada)[1]
.苏州大学高分子系[引用日期]
企业信用信息}
我要回帖
更多关于 翔是什么意思 的文章
- ·"3"翔是什么意思思
- ·韩语:比齐麻单海日态 翔是什么意思思
- ·5+3=1翔是什么意思思
- ·粤语中“半边润”翔是什么意思思
- ·在否啦 翔是什么意思思
- ·洓仒翔是什么意思思?
- ·need u翔是什么意思思
- ·heya budddy 翔是什么意思思
- ·yaobao 翔是什么意思思啊
- ·copefrut翔是什么意思思?
- ·挂居翔是什么意思思?
- ·おちゃめ机能 翔是什么意思思?
- ·symbian 3翻译成中文翔是什么意思思
- ·soulless 中文翔是什么意思思
- ·telado翔是什么意思思
- ·おやすみなせ 这翔是什么意思思?
- ·c1tes翔是什么意思思
- ·问题两个字翔是什么意思思呀?
- ·patrattyu翔是什么意思思?
- ·cyberse翔是什么意思思
- ·YXRYYBYD翔是什么意思思
- ·可以告诉我下 图上的翔是什么意思思吗 谢谢
- ·鬊鬊翔是什么意思思
- ·10321翔是什么意思思
- ·LWJ翔是什么意思思
- ·mysamseire翔是什么意思思
- ·下面日语的意思翔是什么意思?
- ·gomenne翔是什么意思思
- ·52022翔是什么意思思
- ·scattagory 翔是什么意思思啊~~...
- ·&翔是什么意思思
- ·stcl翔是什么意思思
- ·SYRE翔是什么意思思
- ·qw翔是什么意思思
- ·120翔是什么意思思
- ·静临静翔是什么意思思
- ·pvzOL翔是什么意思么
- ·styte翔是什么意思思啊?? ?
- ·卢美美所说的“仁二代”翔是什么意思思?
- ·e在数学上翔是什么意思思
- ·for翔是什么意思思
- ·工作状况描述翔是什么意思思?
- ·什么什么翔是什么意思
- ·wodjf 翔是什么意思思
- ·noble翔是什么意思思
- ·HostOrIP 翔是什么意思思
- ·这句话翔是什么意思思????
- ·RSTH-09000.16翔是什么意思思
- ·这个词翔是什么意思思啊
- ·洗石磨翔是什么意思思
- ·GFRd翔是什么意思么
- ·cuoieria 翔是什么意思?
- ·模具造型里的 补面翔是什么意思思呀
- ·Adminkstrator翔是什么意思思
- ·这里的justly翔是什么意思思 ???
- ·问:圆梦计划 社会公招翔是什么意思思? 东...
- ·shaoow翔是什么意思思?
- ·五十步笑百步翔是什么意思思
- ·Trbl翔是什么意思思
- ·Gpress翔是什么意思思
- ·bonnenuit翔是什么意思思
- ·口占一绝中的占翔是什么意思思?
- ·アキタネル翔是什么意思思
- ·ksy翔是什么意思思
- ·522342479翔是什么意思
- ·PALODY翔是什么意思思?
- ·S$翔是什么意思思啊?
- ·F/C翔是什么意思思?
- ·OODA翔是什么意思?
- ·翔是什么意思思?,
- ·有谁知道这翔是什么意思思!!!!
- ·点石成金的具体意思翔是什么意思 简单点说
- ·翔是什么意思思呀?
- ·XX_XX翔是什么意思思哦
- ·UnAmico翔是什么意思思
- ·甄造翔是什么意思思
- ·13954翔是什么意思思?
- ·电路图旁边还有一小个电路图翔是什么意思思?
- ·9.1日翔是什么意思节
- ·lamarino翔是什么意思思
- ·dsadasdas翔是什么意思思
- ·lazrdaizr 翔是什么意思思?
- ·engineer 翔是什么意思思????
- ·ShapeLeng翔是什么意思思
- ·fuck anymore 翔是什么意思思
- ·不知有汉的意思翔是什么意思?
- ·“失沽”翔是什么意思思啊?
- ·24834025 24834451 翔是什么意思思。
- ·什么翔是什么意思思
- ·符号^l翔是什么意思思
- ·SMTS翔是什么意思思?
- ·cave翔是什么意思思
- ·地拍翔是什么意思思
- ·the Hudson River翔是什么意思思?
- ·fighing! you are the winner翔是什么意思思?
- ·general翔是什么意思思
- ·おポヰ翔是什么意思思
- ·Implies翔是什么意思思?
- ·fmous翔是什么意思思
- ·Cunese 翔是什么意思思
- ·乐樽翔是什么意思思?
- ·521460翔是什么意思思
- ·laptap翔是什么意思思?
- ·至叨翔是什么意思思?? 老看到电视上某些频道写着“至叨”,翔是什么意思思啊。
- ·广东话…毫洋个…翔是什么意思思?
- ·facial wash翔是什么意思思
- ·Evli翔是什么意思思
- ·guaid翔是什么意思思
- ·83suncity具体翔是什么意思思,是个代号吗?
- ·budy翔是什么意思思
- ·xjzccx翔是什么意思思
- ·1102144107翔是什么意思思
- ·7869翔是什么意思思
- ·cabins with 翔是什么意思思
- ·GYF翔是什么意思思
- ·找教育机构翔是什么意思思?
- ·unstair翔是什么意思思
- ·英文发音 啊 来嘎木为木为 翔是什么意思思。
- ·カク カクナット翔是什么意思思 谢谢 在线等待....
- ·鞋上adiprene翔是什么意思思?
- ·G3C 翔是什么意思思
- ·just do it翔是什么意思思?
- ·循环水TSS指的翔是什么意思
- ·激光打标中的峰值翔是什么意思思?
- ·Elizabet翔是什么意思思
- ·ごめ,全部,仆のせだ,だから,さおなら 这翔是什么意思思啊
- ·Customicon翔是什么意思思
- ·本体色オリジナル色(パントン指定) 翔是什么意思思
- ·DSTA的中文翔是什么意思思
- ·クレーム・ド・マロン翔是什么意思思
- ·上次修别翔是什么意思思
- ·比重 D4-20翔是什么意思思?急!!!
- ·5310184翔是什么意思思
- ·请问《浓》字;翔是什么意思思,代表什么,有繁体写法吗?
- ·泥人张文中的绝翔是什么意思思
- ·pclab翔是什么意思思
- ·Struggle翔是什么意思思?怎么读
- ·MMMMON翔是什么意思思
- ·(a-3)(a-8)=什么值得买
- ·scotcb 翔是什么意思思
- ·027415157 翔是什么意思思
- ·‘致逸’翔是什么意思思
- ·parklet 翔是什么意思思
- ·MS-6H08 翔是什么意思思
- ·phcore翔是什么意思么
- ·KZZ3(KZZ3a)翔是什么意思思
- ·处女翔是什么意思思?是指的处长的女儿吗?
- ·IK未定义翔是什么意思思?
- ·(troubleisa)中文翔是什么意思思
- ·"暌违"翔是什么意思思?
- ·请问 国难方殷 翔是什么意思思?谢谢
- ·IMG-001.cr翔是什么意思思
- ·为时不多翔是什么意思思
- ·蕾妲在英国翔是什么意思思
- ·759350149翔是什么意思思
- ·cs中ju滴最高境界翔是什么意思?
- ·几相供电翔是什么意思思?
- ·“坚忍卓绝”意思是?
- ·undrfined翔是什么意思思
- ·“日益密切”中的“密”翔是什么意思思
- ·PWSIL:665 A/B翔是什么意思思?
- ·Charapter翔是什么意思思
- ·4478829翔是什么意思思
- ·heatshrink sleeving 翔是什么意思思
- ·Versacorp翔是什么意思思?
- ·(KTWLAN)(QXWLAN)翔是什么意思思
- ·加林查翔是什么意思思?
- ·u影 一族新地址翔是什么意思b
- ·berceo翔是什么意思思
- ·alburm 翔是什么意思思
- ·O U K翔是什么意思思
- ·翔是什么意思价位
- ·oio翔是什么意思思
- ·死飞山地车翔是什么意思思
- ·他这翔是什么意思思
- ·087935252539翔是什么意思思?
- ·请专家帮忙翻一下这翔是什么意思思。
- ·962664翔是什么意思思
- ·翔是什么意思?
- ·翔是什么意思?
- ·wrnwlpp翔是什么意思思
- ·SCTSC翔是什么意思思
- ·Gnubb 翔是什么意思思
- ·Gay里的F和C翔是什么意思思
- ·awailable翔是什么意思思
- ·ioudj翔是什么意思思?
- ·谁能帮我说下大概意思就。这句话翔是什么意思思
- ·肾虚翔是什么意思思
- ·卜嘢翔是什么意思思
- ·看朋友人人 他主页里有这个翔是什么意思思
- ·哈科米翔是什么意思思?
- ·VitA翔是什么意思思啊?
- ·《徯我后》翔是什么意思思?“徯”字怎么读?
- ·东方翔揪心那拉翔是什么意思思
更多推荐
- ·抖音代充抖币月付可以提现吗?
- ·macbookair官网 Air转换器在哪儿买?
- ·边玩游戏刷边刷视频,如何在不切屏的情况下切下一条视频?
- ·曾国藩家训16字励志金句,句句戳心
- ·加班励志的句子 正能量加点的励志短句,句句戳心窝
- ·CATIA问题 catia 涡轮蜗杆旋向判断宏
- ·什么是过氧化钠的强氧化性?
- ·1/x-2=1/2x-6求解二次方程
- ·帮忙找下适合影视戏剧表演考试的作文解读一篇寓言言故事
- ·水被滇池污染严重吗很严重
- ·postcrossing field注册地址求翻译!!! 急!地址后发
- ·DAA运算的什么是寄存器器是
- ·get post 区别on ,get post 区别off, get post 区别out区别
- ·尊严的作文无价 作文
- ·四川师范大学学报体育教育属于几本专业?
- ·围绕中心句写一段话通顺的话
- ·pt100热电阻长度与长度成正比的理由
- ·义乌英语学英语群
- ·开罗 英语的英语怎么说?
- ·phcore翔是什么意思么
- ·2012年小学毕业考到底2012河南高考难不难难?
- ·班徽设计图片中心
- ·材料:新学期开始了,老师竟让我和一个差生坐在同桌,我很不情愿之婚,没想到,体育课
- ·想买一个背带音箱,请您告诉我广州哪里有音箱批发卖的。谢谢!
- ·ati radeon hd 385068501GB蓝宝石怎么样 大概多少钱
- ·某公司买来笔记本电脑50台买来的笔记本是台式电脑改笔记本的五分之一,公司买来台式电脑改笔记本多少台
- ·怎样把网上的好文章是下载或转载到自己的邮箱里?
- ·刘诗诗吻戏视频QQ是多少。要有认证。可以视频的
- ·在上网时,电脑有时不能上网会弹出
- ·谁能把求个神仙道号号借我,80多的号被盗了 要有网站,借的+2356427318
- ·OS4.1.a怎么下载股指期货软件下载
- ·KOB电子kob门禁考勤系统是哪个公司产品
- ·谁有2009-英国达人秀2011全集各种“门”事件全集种子?
- ·我QQ上一朋友,在线状态,但是他怎么会爱上这个人人装不在线似的,发了好几个QQ消息,都不回复,请问怎样让他回复我阿
- ·qq我的终端QQ935907502
