Jiwei Cui

Professor

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Biography

崔基炜，教授，博士生导师。2010年博士毕业于山东大学胶体与界面化学教育部重点实验室，2010至2016年在墨尔本大学化学与生物分子工程系从事研究员工作。近年来在Science、Nat. Nanotechnol.、Chem. Rev.、Acc. Chem. Res.、Adv. Mater.、Angew. Chem. Int. Ed.、ACS Nano、Chem等国际期刊（合作）发表学术论文150余篇，文章被引用8000余次，发表书籍章节三章。2016年入选海外高层次人才计划并加入山东大学工作。担任Ultrasonics Sonochemistry、Chinese Chemical letters、ChemPhysMater编委。研究内容主要涉及胶体与界面化学和生物医学的交叉研究，具体包括：（1）纳米载体和高分子水凝胶的可控制备；（2）包封技术与应用；（3）肿瘤药物的靶向递送与免疫干预；（4）抑菌与组织修复；（5）纳米疫苗递送等。

具体团队信息请访问：http://cis.sdu.edu.cn/cui_lab/cn.htm 

Education Background

• 2005-09-01-2010-06-30
  山东大学
  Chemistry
• 2001-09-01-2005-06-30
  鲁东大学
  化学

Work Experience

• 2016-06 — Now
  山东大学化学与化工学院
• 2010-08 — 2016-06
  墨尔本大学

Publication

Research direction

1. 高分子胶体与凝胶

2. 包封技术与生物应用

3. 界面组装与调控

4. 肿瘤药物与疫苗靶向递送

Papers

(1)张贵强. Metal coordination-driven assembly of stimulator of interferon genes-activating nanoparticles for tumor chemo-immunotherapy . BMEMat .2024 ,2 (2)

(2)Zhang, Xiaohui. Polyphenol-Mediated Adhesive and Anti-Inflammatory Double-Network Hydrogels for Repairing Postoperative Intervertebral Disc Defects .ACS Applied Materials & Interfaces .2024 ,16 (40):53541-53554

(3)Shan, Caiyun. Metal-Phenolic Network-Coated Nanoparticles as Stabilizers for the Engineering of Pickering Emulsions with Bioactivity .ACS Applied Materials & Interfaces .2024

(4)耿慧敏. Restoring neuronal iron homeostasis revitalizes neurogenesis after spinal cord injury .Proceedings of the National Academy of Sciences of the United States of America .2023 (120)

(5)尤云昊. Integration of Bone-Targeted Delivery and Crosstalk Modulation of Liver-Bone Axis for Improved Osteoporosis Therapy .ACS nano .2025 ,19 (26):23955-23968

(6)Chang, Mingzheng. Training of mesenchymal stem cells by using hydrogel microspheres for the repair of intervertebral disc degeneration .Chemical Engineering Journal .2025 ,519

(7)Zhang, Yuqi. Polyphenol-integrated carboxymethyl chitosan hydrogels with immunoregulatory properties remodeling of inflammatory microenvironment for spinal cord injury repair .Chemical Engineering Journal .2024 ,484

(8)崔小苗. Sono-Assembly of Polyphenol-Protein Capsules for Enhanced Biocatalytic Cascades .化学材料 .2024

(9) Immune checkpoint-regulatable hydrogel-immobilized nanotherapeutics for post-surgical treatment of osteosarcoma .Chemical Engineering Journal .2024 ,498

(10)程倩. Interfacial Assembly of Free-Standing Polymer-Phenolic Films for Antibacterial and Antiultraviolet Applications .ACS Applied Materials & Interfaces .2024

(11)孙伟凯. Metal-Phenolic Vehicles Potentiate Cycle-Cascade Activation of Pyroptosis and cGAS-STING Pathway for Tumor Immunotherapy .ACS nano .2024 ,18 (34):23727-23740

(12)Wang, Hong. Hydrogel-immobilized nanotherapeutics: Inhibition of protective autophagy to amplify STING signals for postsurgical tumor immunotherapy .Chemical Engineering Journal .2024 ,480

(13) Red Blood Cell-Like Poly(ethylene glycol) Particles: Influence of Particle Stiffness on Biological Behaviors .ACS Macro Letters .2024 :966-971

(14)杨扬. Engineering of hierarchical mesoporous silica nanoparticles via control over surfactant nanoarchitectonics for biological applications .Curr. Opin. Colloid Interface Sci. .2024 ,72

(15)李梦琦. Targeting of Low-Immunogenic Poly(ethylene glycol) Nanoparticles for Photothermal-Enhanced Immunotherapy .Advanced Healthcare Materials .2024

(16)Ma, Yuan. Engineering of Nanofibers Embedded with Targeted Nanoparticles Breaks Redox Levers for Glioblastoma Therapy .Advanced Functional Materials .2024

(17)刘含茹. Coacervate-Derived Assembly of Poly(ethylene glycol) Nanoparticles for Combinational Tumor Therapy .Advanced Healthcare Materials .2025

(18)Zhao, Yilei. Polyphenol-mediated assembly of toll-like receptor 7/8 agonist nanoparticles for effective tumor immunotherapy .Acta Biomaterialia .2025

(19)Wang, Zhaoran. A Metal–Phenolic Network-Enabled Nanoadjuvant to Modulate Immune Responses .small .2024

(20)Li, Shiyao. Engineering poly(ethylene glycol) particles for targeted drug delivery .Chemical communication .2024

(21) Targeting neutrophils potentiates hitchhiking delivery of drugs and agonists for postsurgical chemo-immunotherapy .NANO TODAY .2024 ,54

(22)Ju, Yi. Patient-Specific Nanoparticle Targeting in Human Leukemia Blood .ACS nano .2024

(23)王冬蕾. Hydrogen Bonding-Driven Adaptive Coacervates as Protocells .ACS Applied Materials & Interfaces .2025 ,17 (4):6095-6102

(24)田媛. Zwitterionic Poly(ethylene glycol) Nanoparticles Minimize Protein Adsorption and Immunogenicity for Improved Biological Fate .ACS Applied Materials & Interfaces .2025 ,17 (4):6125-6133

(25)高至亮. Metal-Phenolic Chemistry Mediates Assembly of Single-Atom Nanozymes for Cancer Therapy .Chemistry of Materials .2025

(26)李梦琦. Modulation of Colloidal Particle Stiffness for the Exploration of Bio-Nano Interactions .LANGMUIR .2022 ,38 (22):6780-6785

(27)Houston, Zachary H.. Understanding the Uptake of Nanomedicines at Different Stages of Brain Cancer Using a Modular Nanocarrier Platform and Precision Bispecific Antibodies .ACS Central Science .2020 ,6 (5):727-738

(28) Enhanced Delivery of TLR7/8 Agonists by Metal-Organic Frameworks for Hepatitis B Virus Cure. .ACS Applied Materials & Interfaces .2022 ,14 (41):46176-46187

(29)赵凯杰. Sticktight-inspired PEGylation for low-fouling coatings. .Chemical communications .2022 ,58 (99):13735-13738

(30)王宁. Vaccination of TLR7/8 Agonist-Conjugated Antigen Nanoparticles for Cancer Immunotherapy .Advanced Healthcare Materials .2023 ,12 (22)

(31)Wang, Qian. Encapsulation of Enzymes in Metal-Phenolic Network Capsules for the Trigger of Intracellular Cascade Reactions. .LangmuirtheACSjournalofsurfacesandcolloids .2021 ,37 (38):11292-11300

(32)刘浩鑫. Ensemble of single-atom catalysis and defect engineering in Cu₁/CeO₂ nanozymes for tumor therapy .Science China-Chemistry .2023 ,66 (9):2590

(33)田媛. Engineering Poly(ethylene glycol) Nanoparticles for Accelerated Blood Clearance Inhibition and Targeted Drug Delivery .Journal of the American Chemical Society .2022 ,144 (40):18419-18428

(34)田媛. Interface Assembly of Polymer Networks on Metal-Organic Frameworks for the Engineering of Functional Nanoparticles .Chemistry of Materials .2023 ,35 (14):5593

(35) Decoding Macrophage Subtypes to Engineer Modulating Hydrogels for the Alleviation of Intervertebral Disk Degeneration .Advanced Science .2023

(36)张肖辉. Modulation of double-network hydrogels via seeding calcium carbonate microparticles for the engineering of ultrasensitive wearable sensors .Journal of Materials Chemistry A .2023 ,11 (6):2996-3007

(37)仲启智. Modular Metal-Quinone Networks with Tunable Architecture and Functionality .ANGEWANDTE CHEMIE-INTERNATIONAL EDITION .2023 ,62 (14)

(38)高至亮. Polypeptide-Based Theranostics with Tumor-Microenvironment-Activatable Cascade Reaction for Chemo-ferroptosis Combination Therapy .ACS Applied Materials & Interfaces .2020 ,12 (18):20271-20280

(39)Ju, Yi. Person-Specific Biomolecular Coronas Modulate Nanoparticle Interactions with Immune Cells in Human Blood .ACS nano .2020 ,14 (11):15723-15737

(40)李启艳. 高灵敏化学发光酶联免疫检测技术检测祛痘类化妆品中的氟喹诺酮类抗生素 .药学研究 .2020 ,39 (02):92-95

(41)Bonnard, Thomas. Low-Fouling and Biodegradable Protein-Based Particles for Thrombus Imaging .ACS nano .2018 ,12 (7):6988-6996

(42)Zyuzin, Mikhail V.. Role of the Protein Corona Derived from Human Plasma in Cellular Interactions between Nanoporous Human Serum Albumin Particles and Endothelial Cells .Bioconjugate Chemistry .2017 ,28 (8):2062-2068

(43)Liang, Kang. An Enzyme-Coated Metal-Organic Framework Shell for Synthetically Adaptive Cell Survival .ANGEWANDTE CHEMIE-INTERNATIONAL EDITION .2017 ,56 (29):8510-8515

(44)崔基炜. Modulating Targeting of Poly(ethylene glycol) Particles to Tumor Cells Using Bispecific Antibodies .Advanced Healthcare Materials .2019 ,8 (9):e1801607

(45)崔基炜. 120th Anniversary of Shandong University: Forging-ahead Chemistry and Chemical Engineering of SDU .科学通报 .2021 ,66 (14):1663-1665

(46)Li, Anning. Bimetallic metal-organic frameworks for tumor inhibition: Via combined photothermal-immunotherapy .Chemical communication .2022 ,58 (14):2315-2318

(47)Wu, Miao. Automated and remote synthesis of poly(ethylene glycol)-mineralized ZIF-8 composite particles via a synthesizer assisted by femtosecond laser micromachining .CHINESE CHEMICAL LETTERS .2022 ,33 (1):497-500

(48)张贵强. Self-adjuvanting photosensitizer nanoparticles for combination photodynamic immunotherapy .BIOMATERIALS SCIENCE .2021 ,9 (20):6940-6949

(49)Kanaparedu P C Sekhar. Polymorphic transient glycolipid assemblies with tunable lifespan and cargo release .Journal of Colloid and interface science .2022 ,610 :1067-1076

(50)Ma, Xuebin. Silica Capsules Templated from Metal-Organic Frameworks for Enzyme Immobilization and Catalysis .LANGMUIR .2021 ,37 (10):3166-3172

(51)Zhang, Yulin. Glioblastoma Therapy Using Codelivery of Cisplatin and Glutathione Peroxidase Targeting siRNA from Iron Oxide Nanoparticles .ACS Applied Materials & Interfaces .2020 ,12 (39):43408-43421

(52)Shi, Chunjing. An X-state solid-liquid mixture with unusual mechanical properties formed by water and coordination polymer nanosheet nanoarchitectonics .Nanoscale .2022 ,14 (20):7729-7735

(53)耿慧敏. Convergent architecting of multifunction-in-one hydrogels as wound dressings for surgical anti-infections .MATERIALS TODAY CHEMISTRY .2022 ,25

(54)高至亮. 胶体粒子的机械性能调控及其在药物递送中的应用 .Acta Chimica Sinica .2022 ,80 (07):1-13

(55)孙海峰. Transcutaneous delivery of mung bean-derived nanoparticles for amelioration of psoriasis-like skin inflammation .Nanoscale .2022 ,14 (8):3040-3048

(56)付潇. Targeted delivery of Fenton reaction packages and drugs for cancer theranostics .APPLIED MATERIALS TODAY .2022 ,26

(57)耿慧敏. Principles of Cation-πInteractions for Engineering Mussel-Inspired Functional Materials .ACCOUNTS OF CHEMICAL RESEARCH .2022 ,55 (8):1171-1182

(58)崔小苗. Ultrasound-assisted preparation of shikonin-loaded emulsions for the treatment of bacterial infections .Ultrasonics Sonochemistry .2025 ,115

(59) Encapsulation of Monoterpene Phenols in Protein-Stabilized Nanoemulsions for Improved Wound Healing .LANGMUIR .2025

(60)马学彬. Advances in stimuli-responsive injectable hydrogels for biomedical applications .BIOMATERIALS SCIENCE .2024

(61)张训慧. Assembly of Emulsion-Based Cascade Vehicles for Combination Oxygen-Chemotherapy in Diabetic Wound Healing .LANGMUIR .2024

(62)赵凯杰. Synthesis of Antifouling Poly(ethylene glycol) Brushes via Grafting to Approach for Improved Biodistribution .Biomacromolecules .2024

(63)黄至成. Rapid formation of antifouling coatings via cation-π interactions .POLYMER CHEMISTRY .2024 ,15 (43):4465-4473

(64)张训慧. Biologically Derived Nanoarchitectonic Coatings for the Engineering of Hemostatic Needles .BIOMACROMOLECULES Journal .2023

(65)江杰. AIE + ESIPT activity-based NIR Cu2+ sensor with dye participated binding strategy .Chemical Communications .2021 (57)

(66)刘雨嘉. Nanoengineering of Vaccine Nanoparticles via Templating of Metal-Organic Frameworks for Tumor Immunotherapy .Chemistry of Materials .2024 (1520-5002)

(67)张培育. Cascade Reaction of Thiol-Disulfide Exchange Potentiates Rapid Fabrication of Polymer Hydrogels .ACS Macro Letters .2023

(68)Kanaparedu P C Sekhar. Biomimetic Hemostatic Powder Derived from Coacervate-Immobilized Thermogelling Copolymers .Biomacromolecules .2023

(69)宋琪. A highly selective NIR ratiometric fluorescent probe for in situ detection of metabolized hydrazine in living cells. .SENSORS AND ACTUATORS B-CHEMICAL .2023 (393)

(70)刘含茹. Hot Melt Super Glue: Multi-Recyclable Polyphenol-Based Supramolecular Adhesives .MACROMOLECULAR RAPID COMMUNICATIONS .2022 (7):2100830

(71)马学彬. Silica Capsules Templated from Metal？Organic Frameworks for Enzyme Immobilization and Catalysis .LANGMUIR .2021 (10)

(72)Kanaparedu P C Sekhar. Polymorphic transient glycolipid assemblies with tunable lifespan and cargo release .胶体与界面 .2022 ,610 :1067

(73)刘含茹. Hot Melt Super Glue: Multi-Recyclable Polyphenol-Based Supramolecular Adhesives .MACROMOLECULAR RAPID COMMUNICATIONS Journal .2022 ,43 (7)

(74)王倩. Co-delivery of enzymes and photosensitizers via metal-phenolic network capsules for enhanced photodynamic therapy .CHINESE CHEMICAL LETTERS .2022 ,33 (4):1917-1922

(75)赵婷. Nonequilibrium regulation of interfacial chemistry for transient macroscopic supramolecular assembly .Journal of Colloid and interface science .2022 ,623 :674-684

(76)贾良莹. Self-reporting of damage in underwater hierarchical ionic skins via cascade reaction-regulated chemiluminescence. .MATERIALS HORIZONS .2022

(77)马学彬. Effect of Elasticity of Silica Capsules on Cellular Uptake .LANGMUIR .2021 ,37 (40):11688

(78)赵凯杰. Assembly of catechol-modified polymer brushes for drug delivery .POLYMER CHEMISTRY .2022 ,13 (3):373

(79)邱晓勇. Facile Synthesis of Water-Soluble Rhodamine-Based Polymeric Chemosensors via Schiff Base Reaction for Fe3+ Detection and Living Cell Imaging .FRONTIERS IN CHEMISTRY .2022 (10)

(80)邱晓勇. Multi-functional rhodamine-based chitosan hydrogels as colorimetric Hg2+ adsorbents and pH-triggered biosensors .Journal of Colloid and interface science .2021 (604)

(81)黄兆慧. Metal ion-triggered Pickering emulsions and foams for efficient metal ion extraction .胶体与界面 .2021 ,602 :187

(82)黄兆慧. Metal ion-triggered Pickering emulsions and foams for efficient metal ion extraction .胶体与界面 .2021 ,602 :187

(83)王宁. Vaccine Nanoparticles Derived from Mung Beans for Cancer Immunotherapy .Chemistry of Materials .2021 ,33 (11):4057

(84)梅寒笑. Ultrasound expands the versatility of polydopamine coatings* .Ultrasonics - Sonochemistry .2021 ,74

(85)江杰. AIE plus ESIPT activity-based NIR Cu2+ sensor with dye participated binding strategy .chemical communications .2021 ,57 (62):7685

(86)梅寒笑. Sono-Fenton Chemistry Converts Phenol and Phenyl Derivatives into Polyphenols for Engineering Surface Coatings .ANGEWANDTE CHEMIE-INTERNATIONAL EDITION .2021

(87)隋海燕. Dual pH-Responsive Polymer Nanogels with a Core？Shell Structure for Improved Cell Association .Langmuir .2019 (35)

(88)高至亮. Self-assembly of paramagnetic amphiphilic copolymers for synergistic therapy .Journal of Materials Chemistry B .2020 ,8 (31):6866

(89)耿慧敏. Mussel-Inspired Hydrogels for Tissue Healing .ACTA CHIMICA SINICA 2002 .2020 ,78 (2):105

(90)崔基炜. Sono-Polymerization of Poly(ethylene glycol)-Based Nanoparticles for Targeted Drug Delivery .ACS Macro Letters .2019 (8)

(91)崔基炜. Antifouling and pH-Responsive Poly(Carboxybetaine)-Based Nanoparticles for Tumor Cell Targeting .Frontiers in Chemistry .2019 (7)

(92)崔基炜. Tunable morphologies of polymer capsules templated from cuprous oxide particles for control over cell association .CHINESE CHEMICAL LETTERS .2019 (2)

(93)付潇. Co-delivery of anticancer drugs and cell penetrating peptides for improved cancer therapy .CHINESE CHEMICAL LETTERS Journal .2021 ,32 (4):1559

(94)付潇. Targeted poly(ethylene glycol) nanoparticles for photodynamic therapy .Colloids and Surfaces A .2020 ,606

(95)孙海峰. Biologically-derived nanoparticles for chemo-ferroptosis combination therapy .MATERIALS CHEMISTRY FRONTIERS .2021 ,5 (10):3813

(96)于群. Poly(ethylene glycol)-mediated mineralization of metal-organic frameworks .chemical communications .2020 ,56 (75):11078

(97)刘弈含. A new application of Krafft point concept: an ultraviolet-shielded surfactant switchable window .chemical communications .2020 ,56 (39):5315

(98)张贵强. Poly(ethylene glycol)-Mediated Assembly of Vaccine Particles to Improve Stability and Immunogenicity .ACS Applied Materials & Interfaces .2021 ,13 (12):13978

(99)高至亮. Polypeptide Nanoparticles with pH-Sheddable PEGylation for Improved Drug Delivery .LANGMUIR .2020 ,36 (45):13656

(100)裴洪艳. Tunable morphologies of polymer capsules templated from cuprous oxide particles for control over cell association .CHINESE CHEMICAL LETTERS Journal .2019 ,31 (2):505

(101)耿慧敏. Interfacial Assembly of Metal–Phenolic Networks for Hair Dyeing .ACS Applied Materials & Interfaces .2020 (12)

(102)崔基炜. Targeted poly(ethylene glycol) nanoparticles for photodynamic therapy .《COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS》 .2020 (10.1016/j.colsurfa.2020.125394)

(103)张培育. Monodispersity of Poly(ethylene glycol) Matters for Low-fouling Coatings .ACS Macro Letters .2020 (10)

(104)张培育. Fabrication of Poly(ethylene glycol) Capsules via Emulsion Templating Method for Targeted Drug Delivery .POLYMERS .2020 ,12 (5):1124

(105)杨双. Fabrication of Poly(ethylene glycol) Capsules via Emulsion Templating Method for Targeted Drug Delivery .POLYMERS .2020 ,12 (5)

(106)张培育. Monodispersity of Poly(ethylene glycol) Matters for Low-Fouling Coatings .ACS MACRO LETTERS .2020 ,9 (10):1478

(107)张培育. Surfactant-assistant atmospheric acid leaching of laterite ore for the improvement of leaching efficiency of nickel and cobalt .Journal of Cleaner Production .2019 (228):1

(108)张培育. Reinforcement of the two-stage leaching of laterite ores using surfactants .Frontiers of Chemical Science and Engineering .2020 (7)

(109)张培育. Reinforcement of the two-stage leaching of laterite ores using surfactants .Frontiers of Chemical Science and Engineering .2020

(110)张培育. Dual-Stimuli-Responsive Polypeptide Nanoparticles for Photothermal and Photodynamic Therapy .ACS Applied Bio Materials .2019 (3):561

(111)崔基炜. Poly(ethylene glycol)-mediated mineralization of metal–organic frameworks .CHEMICAL COMMUNICATIONS .2020 (75)

(112)高至亮. Sono-Polymerization of Poly(ethylene glycol)-Based Nanoparticles for Targeted Drug Delivery .2019 ,8 (10):1285

(113)戴琼. Advancing Metal-Phenolic Networks for Visual Information Storage .ACS Applied Materials & Interfaces .2019 ,11 (32):29305

(114)隋海燕. Dual pH-Responsive Polymer Nanogels with a Core-Shell Structure for Improved Cell Association .LANGMUIR .2019 ,35 (51):16869

(115)Song, Danzi. Cellular Targeting of Bispecific Antibody-Functionalized Poly(ethylene glycol) Capsules: Do Shape and Size Matter? .ACS Applied Materials & Interfaces .2019 ,11 (32):28720

(116)Jiwei Cui. Ligand-Functionalized Poly(ethylene glycol) Particles for Tumor Targeting and Intracellular Uptake .BIOMACROMOLECULES Journal .2019 ,20 (9):3592

(117)Guo, Junling. Porous Inorganic and Hybrid Systems for Drug Delivery: Future Promise in Combatting Drug Resistance and Translation to Botanical Applications .Current Medicinal Chemistry .2018 ,26 (33):6107

(118)Jiwei Cui. Nanoengineering of Poly(ethylene glycol) Particles for Stealth and Targeting .Langmuir .2018 ,34 (37):10817

(119)Sun, Huanli. Tuning the Properties of Polymer Capsules for Cellular Interactions .Bioconjugate Chemistry .2017 ,28 (7):1859

(120)Fu, Xiao. Multi-Stimuli-Responsive Polymer Particles, Films, and Hydrogels for Drug Delivery .Chem .2018 ,4 (9):2084

(121)耿慧敏. Injectable and Sprayable Polyphenol-Based Hydrogels for Controlling Hemostasis .ACS Applied Bio Materials .2020

(122)耿慧敏. 仿贻贝水凝胶在组织愈合中的应用研究 .化学学报（ACTA CHIMICA SINICA） .2020

(123)丁凤. Antifouling and pH-Responsive Poly(Carboxybetaine)-Based Nanoparticles for Tumor Cell Targeting .FRONTIERS IN CHEMISTRY .2019 ,7

(124)赵文荣. Co-assemblies of polyoxometalate {Mo72Fe30}/double-tailed magneticsurfactant for magnetic-driven anchorage and enrichment of protein .Journal of Colloid and interface science .2018

(125)高至亮. Metal-organic gels of simple chemicals and their high efficacy in removing arsenic(V) in water .AICHE JOURNAL .2018 ,64 (10):3719

(126)王益彤. Microgels in biomaterials and nanomedicines .Advances in Colloid and Interface Science .2019 ,266 :1

(127)戴琼. Polyphenol-Based Particles for Theranostics .THERANOSTICS .2019 ,9 (11):3170

(128)高至亮. Tunable assembly and disassembly of responsive supramolecular polymer brushes .POLYMER CHEMISTRY .2017 ,8 (18):2764

(129)Jiwei Cui. Probing Bio-Nano Interactions with Templated Polymer Particles .Chem .2017 ,2 (5):606

(130)徐路. Surfactant-Modified Ultrafine Gold Nanoparticles with Magnetic Responsiveness for Reversible Convergence and Release of Biomacromolecules .Langmuir .2017 ,33 (12):3047

(131)赵文荣. Co-assemblies of polyoxometalate {Mo72Fe30}/double-tailed magnetic-surfactant for magnetic-driven anchorage and enrichment of protein .Journal of Colloid and interface science .2019 ,536 :88

(132)赵文荣. Co-assemblies of polyoxometalate {Mo72Fe30}/double-tailed magneticsurfactant for magnetic-driven anchorage and enrichment of protein .Journal of Colloid and interface science .2018

(133)戴琼. Polyphenol-Based Particles for Theranostics .THERANOSTICS .2019 ,9 (11):3170

(134)赵文荣. Co-assemblies of polyoxometalate {Mo72Fe30}/double-tailed magnetic-surfactant for magnetic-driven anchorage and enrichment of protein .Journal of Colloid and Interface Science 2012 .2019 ,536 :88

(135)王益彤. Microgels in biomaterials and nanomedicines .Advances in Colloid and Interface Science .2019 ,266 :1

(136)高至亮. Tunable assembly and disassembly of responsive supramolecular polymer brushes .POLYMER CHEMISTRY .2017 , 8 (18):2764

(137)徐路. Surfactant-Modified Ultrafine Gold Nanoparticles with Magnetic Responsiveness for Reversible Convergence and Release of Biomacromolecules .Langmuir .2017 , 33 (12):3047

(138)Jiwei Cui. Probing Bio-Nano Interactions with Templated Polymer Particles .Chem .2017 , 2 (5):606

(139)高至亮. Metal-organic gels of simple chemicals and their high efficacy in removing arsenic(V) in water .AIChE Journal .2018 ,64 (10):3719

Patents

1. 一种基于水凝胶的个性化肿瘤疫苗及其制备方法与应用

2. 一种制备高分子纳米粒子的普适性方法

3. 一种基于预先包埋无机微纳米颗粒的双网络水凝胶及其制备方法与应用

4. 一种凝胶快速制备方法

5. 一种微纳米载酶胶囊的制备方法及应用

6. 一种靶向聚乙二醇药物载体的制备方法与应用

7. 一种仿生凝血机制的止血粉制备方法

8. 一种用于抑菌止血的牙膏及其制备方法

9. 一种基于cation-π相互作用的多功能涂层及其制备方法和应用

10. 一种Toll样受体激动剂纳米粒子及其制备方法和应用

11. 一种基于多酚的凝聚层颗粒制备方法

12. 一种基于超声限域聚合制备多尺度高分子材料的方法

13. 一种靶向聚乙二醇纳米粒子药物载体的超声制备方法与应用

14. 一种基于小蓟提取物的止血抗菌材料及其制备方法和应用

15. 一种基于超声波辅助芬顿技术制备金属-酚类网络结构涂层的方法

16. 一种无载体自组装纳米粒子及其制备方法和应用

17. 一种多酚-聚乙二醇基低共熔胶粘剂的制备和使用方法

18. 一种用于汞离子检测的水溶性荧光素聚合物探针及其制备与应用

19. 一种能可视化识别并除去汞离子的壳聚糖基水凝胶吸附剂及其制备方法与应用

20. 一种基于阳离子-π作用的超亲水自清洁涂层的制备方法

21. 一种基于金属-多酚网络结构的可循环利用的显色方法

22. 一种利用花粉为模板制备磁性介孔二氧化硅颗粒的方法

23. 一种基于天然绿豆的多酚纳米药物载体及其应用

24. 一种水溶性罗丹明基荧光/比色双模式探针及其制备方法与应用

25. 一种以聚乙二醇为矿化剂的沸石咪唑型金属有机框架材料的制备方法与应用

26. 一种利用表面活性剂促进红土镍矿浸出的方法

Research Projects

1. 高能乳化技术研究, 2025-05-12-2025-06-30

2. 乳液包封技术研究, 2024-06-20-2027-06-20

3. 胶体分散体系包封技术研究, 2023-12-07-2026-12-31

4. 低免疫原性聚乙二醇-多酚凝聚体纳米载体的构筑及性能研究, 2023-08-24-2027-12-31

5. 微球栓塞剂杨氏模量的检测与分析, 2023-05-16-2023-08-15

6. 荧光编码微球关键技术的研发 , 2022-02-01-2024-07-31

7. 金属离子诱导形成Pickering乳液和泡沫用于重金属工业废水污染控制, 2023-01-06-2025-12-31

8. 荧光编码微球关键技术的开发, 2021-10-28-2024-10-31

9. 新型纳米疫苗的开发及其在免疫治疗中的应用, 2021-01-01-2023-12-31

10. （包干项目）携带电荷的透明质酸-CST多肽复合纳米颗粒治疗骨关节炎的功能与机制研究, 2020-12-12-2023-12-31

11. 聚乙二醇涂层的可控制备及在循环肿瘤细胞筛选和检测中的应用研究, 2020-09-18-2024-12-31

12. 纳米多酚关键技术的研究开发与应用, 2020-06-22-2022-06-21

13. 胶体与界面化学-绿色高效表面活性剂, 2018-06-22-2020-12-31

14. 高分子凝胶化技术的研发, 2018-12-10-2021-01-31

15. 多级响应聚多肽-聚乙二醇胶体粒子的可控组装及在可视化药物传输中的应用研究, 2018-08-16-2022-12-31

16. 高分子在保水保湿化妆品中的应用以及过敏性皮肤化妆品的开发, 2017-05-01-2022-05-31

17. 可视化肿瘤分级靶向聚合物智能纳米药物研究, 2017-01-01-2019-12-01

18. 聚乙二醇靶向纳米载体的制备及其药物传输的应用研究, 2016-08-17-2019-12-31

Research Group

Name of Research Group:	高分子胶体与生物界面
Description of Research Group:
Members：