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黄延宾
2023-05-12 11:37
  • 黄延宾
  • 黄延宾 - 副研究员-清华大学-化学工程系-个人资料

近期热点

资料介绍

个人简历


教育与工作经历\r
1989~1994 清华大学化学工程系高分子专业 本科\r
1994~1997 清华大学化学工程系高分子专业 硕士\r
1997~2001 Purdue University化学工程学院 博士\r
2001~2004 Kimberly-Clark Corp. Research Scientist\r
2004~2007 ALZA/Johnson & Johnson Senior Research Scientist\r
2007~至今 清华大学化学工程系 副研究员

研究领域


"药用高分子材料;药物递送"

近期论文


Yun Zhou, Yanbin Huang*, and Wantai Yang*, The anhydride-amic acid–imide forms of maleinized soybean oil, Chinese Journal of Polymer Science (accepted)[2]\r
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Tianxiao Chang, Yanbin Huang*, and Wantai Yang*, Waste to treasure: preparation of functional polymeric particles from waste olefins in carbolic oil by self-stabilized precipitation polymerization, ACS Applied Polymer Materials (in press).[3]\r
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Tianxiao Chang, Hongyi Qi, Chenxi Liang, Yanbin Huang*, and Wantai Yang*, A facile approach for preparation of poly(benzothiophene-alt-maleic anhydride) microspheres by self-stabilized precipitation polymerization, Polymer Chemistry, 2022, 13, 4054-4063. [4]\r
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Xing Zhang, Xiaotong Yang, Anyi Wang, Yunxia Wang, Qinyu Wang, Rui Hu, Gulinigaer Anwaier, Rong Qi*, and Yanbin Huang*, HPMC improves protective effects of naringenin and isonicotinamide co-crystals against abdominal aortic aneurysm, Cardiovascular Drugs and Therapy, 2022, 36, 1109-1119. [5]\r
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Yuling Sun*, Jie Liu, Zhibo Li, Jianjun Wang*, and Yanbin Huang*, Nonionic and water-soluble poly(D/L-serine) as a promising biomedical polymer for cryopreservation, ACS Applied Materials & Interfaces, 2021, 13, 18454-18461.[6]\r
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Lu Chen and Yanbin Huang*, The guest polymer effect on the dissolution of drug-polymer crystalline inclusion complexes, RSC Advances, 2021, 11, 13091-13096. [7]\r
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Jiaxuan Jiang, Anyi Wang, Xing Zhang, Yunxia Wang, Qinyu Wang, Mo Zhai, Yanbin Huang, and Rong Qi*, The isonicotinamide cocrystal promotes inhibitory effects of naringenin on nonalcoholic fatty liver disease in mice, Journal of Drug Delivery Science and Technology, 2020, 59, 101874. [8]\r
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Jiaxing Wang, Yanbin Huang*, and Wantai Yang, Photo-grafting poly(acrylic acid) onto poly(lactic acid) chains in solution, Chinese Journal of Polymer Science, 2020, 38(2), 137-142. [9]\r
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Jiaxing Wang, Yong Tao*, Jing Feng, Yidong Niu, Jichao Liu, and Yanbin Huang*, In vitro and in vivo evaluation of benzathine foscarnet microcrystals as a potential intravitreal drug depot, RSC Advances, 2019, 9, 21318–21322.[10]\r
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Zhi Zhong, Xiaotong Yang, Bi-Heng Wang, Ye-Feng Yao, Baohua Guo, Lian Yu*, Yanbin Huang*, and Jun Xu*, Solvent-polymer guest exchange in Carbamazepine inclusion complex: structure, kinetics and implication for guest selection, CrystEngComm, 2019, 21, 2164-2173. [11]\r
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Xiangxue Lyu, Qiufen Zhang, Dehai Liang*, and Yanbin Huang*, Interaction between human serum albumin and cholesterol-grafted polyglutamate as the potential carriers of protein drugs, Acta Pharmaceutica Sinica B, 2019, 9(1), 186-193. [12]\r
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Xiaotong Yang, Beihang Yu, Zhi Zhong, Bao-hua Guo, and Yanbin Huang*, Nevirapine-Polycaprolactone crystalline inclusion complex as a potential long-acting injectable solid form, International Journal of Pharmaceutics, 2018, 543, 121-129.[13]\r
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Xiaotong Yang, Zhi Zhong, Jun Xu, and Yanbin Huang*, Drug-polymer crystalline inclusion complex as a new pharmaceutical solid form, Chinese Chemical Letters, 2017, 28(11), 2099-2104.[14]\r
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Yuling Sun, Yong Tao*, Qingchen Cao, and Yanbin Huang*, Foscarnet calcium microcrystal as the intravitreal drug depot, Chemical Communications, 2017, 53, 5139-5142.[15]\r
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Zhi Zhong, Xiaotong Yang, Xiaobin Fu, Yefeng Yao, Baohua Guo, Yanbin Huang*, and Jun Xu*, Crystalline inclusion complexes formed between the drug diflunisal and block copolymers, Chinese Chemical Letters, 2017, 28(6), 1268-1275.[16]\r
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Yuling Sun, Xiangxue Lyu, Zhibo Li, and Yanbin Huang*, Guanidinium functionalized polypeptide nanogels as the phosphate binder, Polymer, 2017, 112, 325-332.[17]\r
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Zhi Zhong, Xiaotong Yang, Baohua Guo, Jun Xu*, and Yanbin Huang*, Dissolution behavior of the crystalline inclusion complex formed by the drug Diflunisal and Poly(ε-caprolactone), Crystal Growth & Design, 2017, 17(1), 355-362.[18]\r
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Xiaotong Yang, Zhi Zhong, and Yanbin Huang*, The effect of PEG molecular weights on the thermal stability and dissolution behaviors of Griseofulvin-PEG crystalline inclusion complexes, International Journal of Pharmaceutics, 2016, 508, 51-60.[19]\r
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Yuling Sun and Yanbin Huang*, Disulfide-crosslinked albumin hydrogels, Journal of Materials Chemistry B, 2016, 4, 2768-2775.[20]\r
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Zhi Zhong, Canxiong Guo, Xiaotong Yang, Baohua Guo, Jun Xu*, and Yanbin Huang*, Drug molecule Diflunisal forms crystalline inclusion complexes with multiple types of linear polymers, Crystal Growth & Design, 2016, 16, 1181-1186.[21]\r
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Matthias M. Knopp, Niels E. Olesen,Yanbin Huang, René Holm*, Thomas Rades, Statistical analysis of a method to predict drug-polymer miscibility, Journal of Pharmaceutical Sciences, 2016, 105, 362-367.[22]\r
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Jingjing Lai and Yanbin Huang*, Fibril aggregates of the poly(glutamic acid)-drug conjugate, RSC Advances, 2015, 5, 48856-48860.[23]\r
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Jingjing Lai, Huaiyu Yan, Yan Liu, and Yanbin Huang*, Effects of PEG molecular weight on its interaction with albumin, Chinese Journal of Polymer Science, 2015, 33, 1373-1379.[24]\r
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Xuchen Huang and Yanbin Huang*, Solubilization of organic compounds by arginine-derived polymers, Chinese Chemical Letters, 2015, 26, 636-640.[25]\r
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Xiaotong Yang, Boyuan Shen, Yanbin Huang*, Mechanistic study of HPMC-prolonged supersaturation of hydrocortisone, Crystal Growth & Design, 2015, 15, 546-551.[26]\r
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Jing Chang, Yong Tao, Bin Wang, Bao-hua Guo, Hong Xu, Yan-rong Jiang*, and Yanbin Huang*, An in situ-forming zwitterionic hydrogel as vitreous substitute, Journal of Materials Chemistry B, 2015, 3, 1097-1105.[27]\r
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Xiaoshan Yan, Xiaotong Yang, Xinming Tong*, and Yanbin Huang*, A method to accelerate the gelation of disulfide-crosslinked hydrogels, Chinese Journal of Polymer Science, 2015, 33, 118-127.[28]\r
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Shufang Zhao, Wentan Wang, Yanbin Huang*, Yuhang Fu and Yi Cheng*, Paclitaxel loaded human serum albumin nanoparticles stabilized with intermolecular disulfide bonds, MedChemComm, 2014, 5, 1658-1663.[29]\r
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Jing Chang, Yong Tao, Bin Wang, Xiaotong Yang, Hong Xu, Yan-rong Jiang*, Bao-hua Guo*, and Yanbin Huang*, Evaluation of a redox-initiated in situ hydrogel as vitreous substitute, Polymer, 2014, 55, 4627-4633.[30].\r
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Jingjing Lai, Wenxin Fu, Lin Zhu, Ruohai Guo, Dehai Liang*, Zhibo Li*, and Yanbin Huang*, Fibril aggregates formed by a Glatiramer-mimicking random copolymer of amino acids, Langmuir, 2014, 30, 7221-7226. [31]\r
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Zhi Zhong, Canxiong Guo, Long Chen, Jun Xu*, and Yanbin Huang*, Co-crystal formation between poly (ethylene glycol) and small molecular drug griseofulvin, Chemical Communications, 2014, 50, 6375-6378. [32]\r
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Qiao Song, Zhi Luo, Xinming Tong*, Yi Du, and Yanbin Huang, Glutathione as the end capper for cyclodextrin/PEG polyrotaxanes, Chinese Journal of Polymer Science, 2014, 32, 1003-1009.[33]\r
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Yanbin Huang* and Wei-Guo Dai*, Fundamental aspects of the solid dispersion technology for poorly soluble drugs, Acta Pharmaceutica Sinica B, 2014, 4(1), 18-25. [34]\r
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Jingjing Lai, Cui Zheng, Dehai Liang*, and Yanbin Huang*, Amyloid-like fibrils formed by ε-poly-L-lysine, Biomacromolecules, 2013, 14, 4515-4519. [35]\r
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Wentan Wang, Yanbin Huang*, Shufang Zhao, Ting Shao, and Yi Cheng*, Human serum albumin (HSA) nanoparticles stabilized with intermolecular disulfide bonds, Chemical Communications, 2013, 49, 2234-2236. [36].\r
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Yong Tao, Xinming Tong, Yan Zhang, Jingjing Lai, Yanbin Huang, Yan-rong Jiang*, and Bao-hua Guo*, Evaluation of an in-situ chemically crosslinked hydrogel as a long-term vitreous substitute material, Acta Biomaterialia, 2013, 9, 5022-5030.[37]\r
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Dazhi Yang and Yanbin Huang*, A synthetic method to incorporate functional groups at specific locations along the polymer chain, Polymer Materials Science & Engineering (China), 2013, 29(2), 35-37.\r
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Zhi Zhong, Dexi Lin, and Yanbin Huang*, A thermal analysis method to determine the equilibrium solubility of small molecules in the polymer matrix, Plastics (China), 2012, 41(6), 115-118.\r
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Yi He, Yanbin Huang*, Wentan Wang, and Yi Cheng*, Integrating micromixer precipitation and electrospray drying toward continuous production of drug nanoparticles, Chemical Engineering Journal, 2011, 168, 931-937. [38]\r
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Xinming Tong, Jingjing Lai, Baohua Guo, and Yanbin Huang*, A new end group structure of PEG for hydrolysis-resistant biomaterials, Journal of Polymer Science: Polymer Chemistry, 2011, 49, 1513-1516.[39]\r
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Xinming Tong, Baohua Guo, and Yanbin Huang*, Toward the synthesis of sequence-controlled vinyl copolymers, Chemical Communications, 2011, 47, 1455-1457. [40]\r
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Yanbin Huang*, Polymer principles in drug delivery, Polymer Bulletin (China) , 2011, (4), 136-143.\r
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Qi Pan and Yanbin Huang*, Electro-spraying methods for drug-polymer solid dispersion preparation, Polymer Materials Science & Engineering (China), 2011, 27(7), 133-135.\r
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Dexi Lin and Yanbin Huang*, A thermal analysis method to predict the complete phase diagram of drug-polymer solid dispersions, International Journal of Pharmaceutics, 2010, 399, 109-115.[41]\r
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Zhe Liu, Yanbin Huang, Yong Jing, and Yi Cheng*, Mixing intensification by chaotic advection inside droplets for controlled nanoparticle preparation, Microfluidics and Nanofluidics, 2010, 9, 773-786.[42]\r
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Yi He, Yanbin Huang*, and Yi Cheng*, Structure evolution of curcumin nanoprecipitation from a micromixer, Crystal Growth & Design, 2010, 10, 1021-1024.[43]\r
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Nicholas A. Peppas* and Yanbin Huang, Nanoscale technology of mucoadhesive interactions, Advanced Drug Delivery Reviews, 2004, 56, 1675-1687. [44]\r
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Mark Byrne, David Henthorn, Yanbin Huang and Nicholas A. Peppas*, Micropatterned Biomimetic Materials for Bioadhesion and Drug Delivery, in A. K. Dillow and A. M. Lowman, eds., Biomimetic Materials and Design, pp. 443-470, Marcel Dekker, New York (2002).\r
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Yanbin Huang, Igal Szleifer* and Nicholas A. Peppas*, A Molecular Theory of Polymer Gels, Macromolecules, 2002, 35: 1373-1380. [45]\r
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Nicholas A. Peppas* and Yanbin Huang, Polymers and Gels as Molecular Recognition Agents, Pharmaceutical Research, 2002, 19: 578-587. [46]\r
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Nadezhda Efremova, Yanbin Huang, Nicholas A. Peppas*, and Deborah E.Leckband* Direct Measurement of Interactions between Tethered PEG Chains and Adsorbed Mucin Layers, Langmuir, 2002, 18: 836-845. [47]\r
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Petr Bures, Yanbin Huang, Ebru Oral and Nicholas A. Peppas*, Surface Modifications and Molecular Imprinting of Polymers in Medical and Pharmaceutical Applications, Journal of Controlled Release, 2001, 72: 25-33. [48]\r
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Yanbin Huang, Igal Szleifer* and Nicholas A. Peppas*, Gel-Gel Adhesion by Tethered Polymers, Journal of Chemical Physics, 2001, 114: 3809-3818. [49]\r
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Yanbin Huang, William Leobandung, Aaron Foss and Nicholas A. Peppas*, Molecular Aspects of Muco- and Bioadhesion: Tethered Structures and Site-Specific Surfaces, Journal of Controlled Release, 2000, 65: 63-71. [50]\r
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Nicholas A. Peppas*, Monica D. Little and Yanbin Huang, Bioadhesive Controlled Release Systems, in D. L. Wise et al. ed., Handbook of Pharmaceutical Controlled Release Technology, pp. 255-270, Marcel Dekker, New York (2000).\r
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Nicholas A. Peppas*, Yanbin Huang, Madeline Torres-Lugo, Jennifer H. Ward and Jing Zhang, Physicochemical Foundations and Structural Design of Hydrogels in Medicine and Biology, Annual Review of Biomedical Engineering, 2000, 2: 9-29.[51]

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