Xu Wang
Professor
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Personal Information:
  • Name (English):
    Xu Wang
  • Name (Pinyin):
    wangxu
  • Date of Employment:
    2017-06-08
  • School/Department:
    国家胶体材料工程技术研究中心
  • Education Level:
    With Certificate of Graduation for Doctorate Study
  • Gender:
    Male
  • Degree:
    Doctor
  • Status:
    Employed
  • Alma Mater:
    吉林大学
  • Supervisor of Doctorate Candidates
  • Supervisor of Master's Candidates
Education
  • 2007-9 — 2012-6
    吉林大学
    高分子化学与物理
    Doctoral Degree in Science
  • 2003-9 — 2007-7
    吉林大学
    化学
    Bachelor's Degree in Science
  • 2000-9 — 2003-6
    辽宁沈阳第一高中
Publication
Research direction

No contents

Papers

1. 赵婷. Ionic fuel-powered hydrogel actuators for soft robotics .Journal of Colloid and interface science.2024 (677)

2. 丁立. A Healable Quasi-Solid Polymer Electrolyte with Balanced Toughness and Ionic Conductivity .CHEMISTRY-A EUROPEAN JOURNAL .2024 (30)

3. 王仲瑞. Innovating Lubrication with Polyelectrolyte Hydrogels: Sustained Performance through Lipid Dynamics .Advanced Functional Materials.2024 (35)

4. 孔庆明. Mimosa-Inspired Body Temperature-Responsive Shape Memory Polymer Networks: High Energy Densities and Multi-Recyclability .advanced science.2024 (39)

5. 王仲瑞. Programming Supramolecular Hydrogels by Constructing a Multibranch Selection Structure .CCS Chemistry.2025 (6)

6. 肖静. Healable, Recyclable, and Upcyclable Gel Membranes for Efficient Carbon Dioxide Separation .ANGEWANDTE CHEMIE-INTERNATIONAL EDITION.2024

7. 赵婷. Ionic fuel-powered hydrogel actuators for soft robotics .Journal of Colloid and interface science.2025,677 :739-749

8. 钟渊博. 线性-树枝状嵌段共聚物用于蛋白质药物的递送 .中国材料进展.2018 (4):273

9. 逯浩月. Host-Fueled Transient Supramolecular Hydrogels .ChemSystemsChem.2022,4 (4)

10. 逯浩月. 瞬态水凝胶的研究进展 .科学通报.2021,66 (14):1733

11. 李盼盼. Systems Chemistry in Self-Healing Materials .ChemSystemsChem.2021,3 (3)

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

13. 李盼盼. Transient Healability of Metallosupramolecular Polymer Networks Mediated by Kinetic Control of Competing Chemical Reactions .Macromolecules.2020 (8):2856

14. 贾良莹. Tailoring Azlactone-Based Block Copolymers for Stimuli-Responsive Disassembly of Nanocarriers .LANGMUIR.2020 (34):10200

15. 钟渊博. Bioinspired Self-Healing of Kinetically Inert Hydrogels Mediated by Chemical Nutrient Supply .ACS Applied Materials & Interfaces.2020 (5):6471

16. . Versatile Synthesis of Amine-Reactive Microgels by Self-Assembly of Azlactone-Containing Block Copolymers .Macromolecules .2018 (10):3691

17. 赵婷. Cyclic Macroscopic Assembly and Disassembly Driven by Ionic Strength Fuel: A Waste-Free Approach .ACS Applied Materials & Interfaces.2023,15 (27):33169

18. 王璐平. Development of Tough Thermoplastic Elastomers by Leveraging Rigid–Flexible Supramolecular Segment Interplays .Angew. Chem.Int. Ed..2023,62 (62)

19. . A Comprehensive Study on Flavor/Cyclodextrin Inclusion Complexes .Colloids and surface A.2023,679 (679):132613

20. 张春晓. Transient Polymer Hydrogels Based on Dynamic Covalent Borate Ester Bonds .Chinese Journal of Chemistry.2022,40 (23):2794

21. 肖静. Glow Stick-Inspired Multilayered Composites with Damage Self-Reporting and Self-Healing Properties for Aquatic Environments .Advanced Engineering Materials.2023,25 (25):2300331

22. 贾良莹. Transient Chemical Activation of Covalent Bonds for Healing of Kinetically Stable and Multifunctional Organohydrogels .CCS Chemistry.2022,5 (5):510

23. 王仲瑞. Transient Regulation of Gel Properties by Chemical Reaction Networks .Chemical Communications.2023,59 (59):9818

24. 谭禹. Versatile Light-Mediated Synthesis of Dry Ion-Conducting Dynamic Bottlebrush Networks with High Elasticity, Interfacial Adhesiveness, and Flame Retardancy .Macromolecules .2022,55 (21):9715

25. 张元郅. Temporary Actuation of Bilayer Polymer Hydrogels Mediated by the Enzymatic Reaction .LANGMUIR.2022,38 (49):15433

26. 钟渊博. Amoeba-inspired reengineering of polymer networks .GREEN CHEMISTRY.2021,23 (6):2496

27. 王旭. Polycation-telodendrimer nanocomplexes for intracellular protein delivery .Colloids and surface B Biointerfaces.2018,162 (162):405

28. 李盼盼. Enzyme-Regulated Healable Polymeric Hydrogels .ACS Central Science.2020 (9):1507

29. 赵婷. 宏观非平衡超分子自组装综合实验 .大学化学.2023,38 (38)

30. 李盼盼. 超分子组装体动态重构综合实验 .大学化学.2023,38 (9):202

31. 逯浩月. 瞬态水凝胶的研究进展 .科学通报.2021,66 (14):1733-1745

32. 李盼盼. Systems Chemistry in Self-Healing Materials .CHEMSYSTEMSCHEM.2021

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

34. 张开强. Erasable polymer hydrogel wells .Colloids and Surfaces A.2022,648

35. 逯浩月. Host-Fueled Transient Supramolecular Hydrogels .CHEMSYSTEMSCHEM.2022,4 (3)

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

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

38. 李盼盼. Feedback-controlled topological reconfiguration of molecular assemblies for programming supramolecular structures .Soft Matter.2022,18 (20):3856-3866

39. 李盼盼. Architecture- and Composition-Controlled Self-Assembly of Block Copolymers and Binary Mixtures With Crosslinkable Components: Chain Exchange Between Block Copolymer Nanoparticles .Frontiers in Chemistry.2022,10 (10):833307

40. 王璐平. Insertion of Supramolecular Segments into Covalently Crosslinked Polyurethane Networks towards the Fabrication of Recyclable Elastomers .Chinese Journal of Polymer Science (English Editio.2022,40 (40):321

41. 钟渊博. Bioinspired Self-Healing of Kinetically Inert Hydrogels Mediated by Chemical Nutrient Supply .ACS Applied Materials & Interfaces.2020,12 (5):6471

42. 李盼盼. Transient Healability of Metallosupramolecular Polymer Networks Mediated by Kinetic Control of Competing Chemical Reactions .Macromolecules.2020,53 (8):2856

43. 贾良莹. Tailoring Azlactone-Based Block Copolymers for Stimuli-Responsive Disassembly of Nanocarriers .LANGMUIR.2020,36 (34):10200

44. 李盼盼. Enzyme-Regulated Healable Polymeric Hydrogels .ACS CENTRAL SCIENCE.2020,6 (9):1507

45. 吴翔宇. Electrospun poly(vinyl alcohol) nanofiber films containing menthol/beta-cyclodextrin inclusion complexes for smoke filtration and flavor retention .Colloids and Surfaces A.2020,605

46. 钟渊博. Amoeba-inspired reengineering of polymer networks .GREEN CHEMISTRY.2021,23 (6):2496

47. 贾良莹. Tailoring Azlactone-Based Block Copolymers for Stimuli-Responsive Disassembly of Nanocarriers .LANGMUIR.2020,36 (34):10200

48. 钟渊博. Repairing Creep-Resistant and Kinetically Inert Hydrogels via Yeast Activity-Regulated Energy Dissipation .ACS Applied Bio Materials.2020,3 (7):4507

49. 吴翔宇. Electrospun poly(vinyl alcohol) nanofiber films containing menthol/β- cyclodextrin inclusion complexes for smoke filtration and flavor retention .《COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS》.2020,605 (605):125378

50. 钟渊博. Amoeba-inspired reengineering of polymer networks .GREEN CHEMISTRY,23 (23):2496

51. 李盼盼. Enzyme-Regulated Healable Polymeric Hydrogels .ACS Central Science.2020,6 (9):1507

52. xiayuguo , haojingcheng  and lipanpan. Transient Healability of Metallosupramolecular Polymer Networks Mediated by Kinetic Control of Competing Chemical Reactions .Macromolecules.2020,53 (8):2856

53. haojingcheng  and zhongyuanbo. Bioinspired Self-Healing of Kinetically Inert Hydrogels Mediated by Chemical Nutrient Supply .ACS Applied Materials & Interfaces.2020 (5)

54. 王旭. Structure-Based Nanocarrier Design for Protein Delivery .ACS Macro Letters.2017

55. wanghaijun  and Xu Wang. Enzymatically mediated, physiologically triggered N-palmitoyl chitosan hydrogels with temporally modulated high injectability .Colloids and surface A.2019,582 (582):123940

56. Xu Wang  and zhongyuanbo. 线性-树枝状嵌段共聚物用于蛋白质药物的递送 .中国材料进展.2018 (04)

57. Xu Wang  and Wang, Yan. Polymers with a Coiled Conformation Enable Healing of Wide and Deep Damages in Polymeric Films .ACS Applied Materials & Interfaces.2018,10 (36):30716

58. zhongyuanbo  and Xu Wang. Combinatorial approaches in post-polymerization modification for rational development of therapeutic delivery systems .Acta Biomaterialia.2018,73 :21

59. Xu Wang  and 王旭. Versatile Synthesis of Amine-Reactive Microgels by Self-Assembly of Azlactone-Containing Block Copolymers .Macromolecules.2018,51 (10):3691

60. Xu Wang  and 王旭. Polycation-telodendrimer nanocomplexes for intracellular protein delivery .COLLOIDS AND SURFACES B-BIOINTERFACES.2018,162 :405

61. Xu Wang  and 王旭. Layer-by-Layer Assembled Polyampholyte Microgel Films for Simultaneous Release of Anionic and Cationic Molecules .Langmuir.2010,26 :8187

62. Xu Wang  and 王旭. Optically Transparent Antibacterial Films Capable of Healing Multiple Scratches .Advanced functional materials.2013,24 :403

63. Xu Wang  and 王旭. Water-Enabled Self-Healing of Polyelectrolyte Multilayer Coatings .Angewandte Chemie International Edition.2011,50 :11378

64. Xu Wang  and 王旭. Control of Self-Assembled Structure through Architecturally and Compositionally Complex Block Copolymer Surfactant Mixtures .Macromolecules.2014,47 :7138

65. Xu Wang  and 王旭. Fine-Tuning Vitamin E-Containing Telodendrimers for Efficient Delivery of Gambogic Acid in Colon Cancer Treatment .Molecular Pharmaceutics.2015,12 :1216

66. Xu Wang  and 王旭. Tunable Lipidoid-Telodendrimer Hybrid Nanoparticles for Intracellular Protein Delivery in Brain Tumor Treatment .Small.2016,12 :4185

67. Xu Wang  and 王旭. Affinity-Controlled Protein Encapsulation into Sub-30 nm Telodendrimer Nanocarriers by Multivalent and Synergistic Interactions .Biomaterials.2016,101 :258

68. Xu Wang  and 王旭. Layer-by-Layer Deposition of Magnetic Microgel Films on Plastic Surfaces for The Preparation of Magnetic Resonance Visibility Enhancing Coatings .Journal of Materials Chemistry.2009,20 :555

69. 王旭. Fine-Tuning Vitamin E-Containing Telodendrimers for Efficient Delivery of Gambogic Acid in Colon Cancer Treatment .Molecular Pharmaceutics.2015,12 :1216

70. Xu Wang  and zhongyuanbo. 线性-树枝状嵌段共聚物用于蛋白质药物的递送 .中国材料进展.2018 (04)

71. Xu Wang  and zhongyuanbo. Combinatorial approaches in post-polymerization modification for rational development of therapeutic delivery systems .Acta Biomaterialia.2018,73 :21

72. Xu Wang  and Wang, Yan. Polymers with a Coiled Conformation Enable Healing of Wide and Deep Damages in Polymeric Films .ACS Applied Materials & Interfaces.2018,10 (36):30716

73. 王旭. Layer-by-Layer Deposition of Magnetic Microgel Films on Plastic Surfaces for The Preparation of Magnetic Resonance Visibility Enhancing Coatings .Journal of Materials Chemistry.2009,20 :555

74. 王旭. Layer-by-Layer Assembled Polyampholyte Microgel Films for Simultaneous Release of Anionic and Cationic Molecules .Langmuir.2010,26 :8187

75. 王旭. Water-Enabled Self-Healing of Polyelectrolyte Multilayer Coatings .Angewandte Chemie International Edition.2011,50 :11378

76. 王旭. Optically Transparent Antibacterial Films Capable of Healing Multiple Scratches .Advanced functional materials.2013,24 :403

77. 王旭. Control of Self-Assembled Structure through Architecturally and Compositionally Complex Block Copolymer Surfactant Mixtures .Macromolecules.2014,47 :7138

78. 王旭. Tunable Lipidoid-Telodendrimer Hybrid Nanoparticles for Intracellular Protein Delivery in Brain Tumor Treatment .Small.2016,12 :4185

79. 王旭. Affinity-Controlled Protein Encapsulation into Sub-30 nm Telodendrimer Nanocarriers by Multivalent and Synergistic Interactions .Biomaterials.2016,101 :258

80. 王旭. Versatile Synthesis of Amine-Reactive Microgels by Self-Assembly of Azlactone-Containing Block Copolymers .Macromolecules.2018,51 (10):3691

81. 王旭. Polycation-telodendrimer nanocomplexes for intracellular protein delivery .COLLOIDS AND SURFACES B-BIOINTERFACES.2018,162 :405

Patens

1. 一种高分子水凝胶绿色再加工的方法

2. 一种富含氧空位的溴氧铋超薄纳米片光致变色材料及其制备方法与应用

3. 一种基于自驱动电致变色显示器件的信息加密/解密的方法

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