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[1]程昉.Controllable functionalization of hydroxyl-terminated self-assembled monolayers via catalytic o...[J],Biointerphases,2022,13(6):06E407
[2]Li, Mingyang.Controlling Conjugated Antibodies at the Molecular Level for Active Targeting Nanoparticles towar...[J],MOLECULAR PHARMACEUTICS,2022,18(3):1196-1207
[3]程昉.Biofunctional paper via the covalent modification of cellulose[J],LANGMUIR,2022,28(30):11265-11273
[4]程昉.A Versatile Method for Functionalizing Surfaces with Bioactive Glycans[A],2011年高分子学术论文报告会,2022,406-406
[5]程昉.Antibody-Ligand Interactions for Hydrophobic Charge-Induction Chromatography: A Surface Plasmon...[J],LANGMUIR,2022,31(11):3422-3430
[6]Chang, Mingming.A Potential Mechanism of a Cationic Cyclopeptide for Enhancing Insulin Delivery across Caco-2 C...[J],BIOLOGICAL PHARMACEUTICAL BULLETIN,2022,36(10):1602-1607
[7]柳承德.Apatite Formation on Poly(aryl ether sulfone ketone) Surfaces by Means of Polydopamine Layers F...[J],Advanced Materials Interfaces,2022,5(13)
[8]程昉.An organophosphonate strategy for functionalizing silicon photonic biosensors[J],LANGMUIR,2022,28(6):3338-3344
[9]Li, Yang.Ammonia formation by a thiolate-bridged diiron amide complex as a nitrogenase mimic[J],Nature Chemistry,2022,5(4):320-326
[10]Liu, Qingsheng.Amino Acid-Based Zwitterionic Polymer Surfaces Highly Resist Long-Term Bacterial Adhesion[J],LANGMUIR,2022,32(31):7866-7874
[11]Wang, Hanqi.Amino acid-based anti-fouling functionalization of silica nanoparticles using divinyl sulfone[J],Acta Biomaterialia,2022,40:273-281
[12]程昉.Activation of resin with controllable ligand density via catalytic oxa-Michael addition and app...[J],JOURNAL OF CHROMATOGRAPHY A,2022,1570:1-9
[13]葛丹.The neurotoxicity induced by engineered nanomaterials[J],International Journal of Nanomedicine,2022,14:4167-4186
[14]程昉.Imaging analysis of carbohydrate-modified surfaces using tof-SIMS and spri[J],Materials,2022,3(7):3948-3964
[15]Wang, Conggang.HSA targets multiple A beta 42 species and inhibits the seeding-mediated aggregation and cytoto...[J],RSC Advances,2022,6(75):71165-71175
[16]Mu, Zhixiang.Gelatin Nanoparticle-Injectable Platelet-Rich Fibrin Double Network Hydrogels with Local Adapta...[J],Advanced Healthcare Materials,2022,9(5):e1901469
[17]Wan, Yafan.Green preparation of hierarchically structured hemostatic epoxy -amine sponge[J],CHEMICAL ENGINEERING JOURNAL,2022,397
[18]Cao, Bin.Electroactive poly(sulfobetaine-3,4-ethylenedioxythiophene) (PSBEDOT) with controllable antifou...[J],Chemical Science,2022,7(3):1976-1981
[19]Chang, Mingming.Effect of Cationic Cyclopeptides on Transdermal and Transmembrane Delivery of Insulin[J],MOLECULAR PHARMACEUTICS,2022,10(3):951-957
[20]程昉.糖芯片制备的关键技术:基于氨基改性表面的糖分子固定方法及其表面表征[J],化学传感器,2022,37(3):32-40
[21]张宇杰.Microfluidic-templating alginate microgels crosslinked by different metal ions as engineered micr...[J],MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS,2022,131
[22]Han, Jianmei.Mechanistic understanding of the discrete morphology formed by multi-cycle assembly of tannic aci...[J],COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,2022,628
[23]Liu, Yonglan.Molecular Dynamics Simulation of the Effect of Carbon Space Lengths on the Antifouling Properti...[J],LANGMUIR,2022,35(9):3576-3584
[24]Peng, Lianghong.Multilayer Assembly of Tannic Acid and an Amphiphilic Copolymer Poloxamer 188 on Planar Substra...[J],LANGMUIR,2022,34(36):10748-10756
[25]程昉.New Strategy for Functionalization of Silica Materials via Catalytic Oxa-Michael Reaction of Su...[J],ACS Sustainable Chemistry Engineering,2022,7(10):9112-9120
[26]Wang Hanqi.Poly(ethylene) glycol hydrogel based on oxa-Michael reaction: Precursor synthesis and hydrogel fo...[J],Biointerphases,2022,12(2):02C414
[27]Wang, Huifeng.pH-Sensitive Poly(histidine methacrylamide)[J],LANGMUIR,2022,32(25):6544-6550
[28]陆安慧.Precise synthesis of discrete and dispersible carbon-protected magnetic nanoparticles for effic...[J],纳米研究 英文版,2022,9(5):1460-1469
[29]程昉.Preparation and characterization of DNA array slides via surface Michael addition[J],Biointerphases,2022,14(6):061003
[30]Wang, Hanqi.Reactivity and Kinetics of Vinyl Sulfone-Functionalized Self-Assembled Monolayers for Bioactive...[J],LANGMUIR,2022,31(11):3413-3421
[31]程昉.pSBMA-Conjugated Magnetic Nanoparticles for Selective IgG Separation[J],LANGMUIR,2022,35(5,SI):1111-1118
[32]Sun, Xiaoning.Silicification of Amine-Epoxide Cationic Microgels: An In Vitro Investigation[J],LANGMUIR,2022,37(14):4331-4339
[33]Li, Mingyang.Site-Specific and Covalent Immobilization of His-Tagged Proteins via Surface Vinyl Sulfone-Imid...[J],LANGMUIR,2022,35(50):16466-16475
[34]Wu, Haiyan.Synthesis and characterization of an enzyme-degradable zwitterionic dextran hydrogel[J],RSC Advances,2022,6(37):30862-30866
[35]Lee, Chen-Jung.Structure-function study of poly(sulfobetaine 3,4-ethylenedioxythiophene) (PSBEDOT) and its der...[J],Acta Biomaterialia,2022,75:161-170
[36]刘云.Surface Plasmon Resonance Biosensor Based on Smart Phone Platforms[J],Scientific Reports,2022,5:12864
[37]李敏.Surface Modification of Stober Silica Nanoparticles with Controlled Moiety Densities Determines...[J],LANGMUIR,2022,35(45):14688-14695
[38]高志刚.多品种口服固体制剂车间设计探讨[J],化工管理,2022,25:197-199
[39]Wang, Xing-Long.基于表面电荷对抗体分子状态调控的研究[J],Gao Xiao Hua Xue Gong Cheng Xue Bao/Journal of Chemical Engineering of Chinese Universities,2022,35(5):849-859
[40]程昉.基于氨基与表面乙烯砜基反应动力学调控配基表面密度[J],物理化学学报,2022,34(2):177-184
[41]王卓霄.基于氨基酸的抗垢涂层及森林脑炎快速诊断[J],化学传感器,2022,1:48-55
[42]程昉.基于二硫代氨基甲酸盐自组装的糖芯片制备与表征[J],物理化学学报,2017,33(2):426-434
[43]程昉.蛋白质在线定量分析的研究——光纤SPR传感器件的研制[A],2013中国化工学会年会,2013,1
[44]刘云.经济紧凑的基于通用光电器件的表面等离子体共振图像传感器[A],中国化学会,2014,1-1
[45]Liu, H..Preparation of hydrogel dual-drug delivery system for enhancing DOX•HCl efficacy [用于盐酸阿霉素...[J],Dalian Ligong Daxue Xuebao/Journal of Dalian University of Technology,2021,61(4):337-343
[46]徐胜利.基于CFD流场模拟的反应釜结构设计[J],化工进展,2016,z2:401-406
[47]刘强.光纤SPR传感器关键器件制作及IgG检测应用[A],中国化学会,2014,1-1
[48]王汉奇.乙烯基砜表面化学反应动力学研究[A],中国化学会,2014,1-1
[49]程昉.一种用于抗体快速分离的嗜硫纳米粒子的制备及表征[J],分析化学,2018,46(12):1953-1960
[50]张郁新.Fast-responding functional DNA superstructures for stimuli-triggered protein release[J],Chemical Science,2021,12:8282-8287
[51]高志刚.桑叶提取车间初步设计探讨[J],广东化工,2021,*(10):123-123
[52]Wang, Hanqi.Amino acid-based anti-fouling functionalization of silica nanoparticles using divinyl sulfone[J],2nd International Conference on Bioinspired and Zwitterionic Materials (ICBZM),2021,40:273-281
[53]Lee, Chen-Jung.Structure-function study of poly(sulfobetaine 3,4-ethylenedioxythiophene) (PSBEDOT) and its der...[J],ACTA BIOMATERIALIA,2021,75:161-170
[54]Mu, Zhixiang,Liang, Panpan,Li, Xiaodong,Song, Jinlin,Ji, Ping,Cheng, Fang,Wang, Huanan,Chen, Tao,Chen, Kaiwen,Yuan, Shuai,Li, Yihan,Huang, Yuanding,Wang, Chao,Zhang, Yang,Liu, Wenzhao,Luo, Wenping.Gelatin Nanoparticle-Injectable Platelet-Rich Fibrin Double Network Hydrogels with Local Adapta...[J],ADVANCED HEALTHCARE MATERIALS,2020,9(5):e1901469
[55]Li, Min,Cheng, Fang,Xue, Changying,Wang, Hanqi,Chen, Chen,Du, Qiqi,Ge, Dan,Sun, Bingbing.Surface Modification of Stober Silica Nanoparticles with Controlled Moiety Densities Determines...[J],LANGMUIR,2019,35(45):14688-14695
[56]Ge, Dan,Du, Qiqi,Ran, Bingqing,Liu, Xingyu,Wang, Xin,Ma, Xuehu,Cheng, Fang,Sun, Bingbing.The neurotoxicity induced by engineered nanomaterials[J],INTERNATIONAL JOURNAL OF NANOMEDICINE,2019,14:4167-4186
[57]Li, Mingyang,Wang, Qing,Cheng, Gang,He, Wei,Chen, Chen,Jin, Weiwei,Li, Haoqiang,Cheng, Fang.Site-Specific and Covalent Immobilization of His-Tagged Proteins via Surface Vinyl Sulfone-Imid...[J],LANGMUIR,2019,35(50):16466-16475
[58]Cheng, Fang,Zhu, Chuanlei,He, Wei,Zhao, Jing,Qu, Jingping.pSBMA-Conjugated Magnetic Nanoparticles for Selective IgG Separation[J],LANGMUIR,2019,35(5,SI):1111-1118
[59]徐海霞,孟祥娟,王鹏,陈德飞,陈箐,程昉,赵静,袁泽波.极端油藏微生物多样性分析[J],环境科学与技术,2019,02:32-37
[60]Cheng, Fang,Ma, Xiaochun,Feng, Qiancheng,Wang, Hanqi,Yin, Meng,He, Wei.Preparation and characterization of DNA array slides via surface Michael addition[J],BIOINTERPHASES,2019,14(6):061003