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张玉红教授

作者:柴仕淦   来源:8858cc永利唯一官方网      发布日期:2013-05-03   浏览:

    名:张玉红

职称职务:教授、硕士生导师

专业方向: 高分子化学与物理

办公电话: 02788662747

Email:  zhangyuhong@hubu.edu.cn

 

研究领域与兴趣:

1. 胶体复合微球的组装

2. 生物医用高分子材料

3. 乳液聚合及聚合物乳液

4. 高性能膜的制备与应用

 

教育与研究经历:

2015.06~        8858cc永利唯一官方网  教授

2010.4~ 2015.06   8858cc永利唯一官方网  副教授

2013.11~2014.11  美国佐治亚理工学院材料科学与工程学院 访学学者

 

 教学情况:

  担任课程:《高分子化学》、《乳液聚合》、《高分子化学实验》、《材料表征技术》等。

 

主持的项目与课题:

1. 等离子体化学与新材料湖北省重点实验室,表面浸润可控抗污染聚合物/SiO2复合水凝胶的制备及油水分离性能研究,2020/9-2021/8

2. 武汉市千企万人支撑计划,锂亚电池功能添加剂的应用研究,2019/12-2022/12

3. 生物催化与酶工程国家重点实验室,透明质酸酶响应性纳米凝胶的制备及控释行为研究, 2020/01-2021/12

4. 功能材料绿色制备与应用教育部重点实验室,高性能聚合物/SiO2复合水凝胶膜的构建及其油水分离性能研究, 2020/01-2021/12

5. 武汉临空港经济技术开发区(东西湖区)“金山英才计划” 二氧化锰的合成、改性及其在锂锰电池体系中的应用研究,2018/01-2020/12

6. 江西中辉新材料有限公司,高性能压敏胶的研制, 2019/07-2021/12

7. 武汉昊诚能源科技有限公司,二氧化锰的合成、改性及其在锂锰电池体系中的应用研究, 2019/07-2020/12

8. 湖北省省高等学校优秀中青年创新团队计划项目(T201801),功能涂料研发, 2018/01-2011/12

9. 分离膜与膜过程国家重点实验室,PSt-BA-AA/SiO2 复合微球的调控以及超疏水油水分离膜的研制(M2-201705),2018/05-2010/05

10. 有机功能分子合成与应用教育部重点实验室开放基金,PINPAM/GO有机无机复合凝胶的可控制备及其载药性能的研究,2016/09-2018/08

11. 国家自然科学基金青年基金,基于小分子液滴为模板单分散聚合物/SiO2复合微球的可控制备及形成机理研究,2013/01-2015/12

12. 有机功能分子合成与应用教育部重点实验室开放基金,有机无机纳米复合乳液的合成与应用研究,2013/09-2015/08

13. 功能材料绿色制备省部共建教育部重点实验室开放基金,纳米复合乳液的制备, 2013/10-2015/09

14. 湖北省自然科学基金面上项目,以小分子液滴为模板单分散复合微球的可控制备及应用研究,2011/01-2012/12

15. 湖北省教育厅青年基金项目,草莓型P(St-BA)/SiO2有机无机复合微球的制备与应用研究, 2010/01-2011/12

16. 广州杜丽邦化工科技公司,丙烯酰胺类共聚物絮凝剂的合成及应用研究, 2010/10–2011/10

17. 功能材料绿色制备省部共建教育部重点实验室开放基金,细乳液聚合制备单分散有机无机纳米复合微球及应用研究,2010/01–2011/12

 

近几年代表性成果(通讯作者)

1. Yuhong Zhang*, Mesoporous silica and polymer hybrid nanogels for multistage delivery of an anticancer drug. J Mater Sci, 2021, 56: 4830–4842

2. Yuhong Zhang*, Self-assembled star-shaped sPCL-PEG copolymer nanomicelles with pH-sensitivity for anticancer drug delivery. Macromolecular Chemistry and Physics, 2021, 222(3):2000379

3. Yuhong Zhang*, Underwater superoleophobic APTES-SiO2/PVA organohydrogel for lowtemperature. tolerant, self-healing, recoverable oil/water separation mesh. Chemical Engineering Journal2020, 382:  122925

4. Yuhong Zhang*, Transparent, high-strength, stretchable, sensitive and anti-freezing poly(vinyl alcohol) ionic hydrogel strain sensors for human motion monitoring. Journal of Materials Chemistry C, 2020,8: 2827-2837.

5.  Yuhong Zhang*, A self-adhesive wearable strain sensor based on highly stretchable, tough, self-healing and ultra-sensitive ionic hydrogel. Journal of Materials Chemistry C, 2020, 8, 17349-17364

6.  Yuhong Zhang*, Multifunctional Ag/polymer composite nanospheres for drug delivery and cell imaging. J Mater Sci, 2020, 55:13995–14007

7.  Yuhong Zhang*, Co(BO2)2 supported on MIL-101 as high-performance anode material for Li-ion battery. Materials Chemistry and Physics, 2020, 241: 122362

8. Yuhong Zhang*, Synthesis and water absorbing properties of KGM-g-P(AA-AM-(DMAEA-EB)) via grafting polymerization method. Polymer Science, Series B, 2020, 62: 238244  

9. Yuhong Zhang*,.A rubber-like, underwater superoleophobic hydrogel for efficient oil/water separation. Chemical Engineering Journal2019, 361: 364-372.

10. Yuhong Zhang*,Physically cross-linked double-network hydrogel for high-performance oil−water separation mesh.Ind. Eng. Chem. Res., 2019, 58, 21649−21658

11. Yuhong Zhang*, Hybrid mesoporous silica nanospheres modified by poly (NIPAM-co-AA) for drug delivery. Nanotechnology,2019, 30: 355604(1-10)

12. Yuhong Zhang*, High-strength, rapidly self-recoverable, and antifatigue nano-SiO2/poly (acrylamide-lauryl methacrylate) composite hydrogels. Macromol. Mater. Eng., 2019, 304, 1900130

13. Yuhong Zhang*, Ice-template triggered roughness: A facile method to prepare robust superhydrophobic surface with versatile performance. Progress in Organic Coatings, 2019,135: 345351

14. Yuhong Zhang*, Synthesis of cationic polyacrylamide via inverse emulsion polymerization method for the application in water treatment. Journal of Macromolecular Science, Part A,2019. 56:1, 76-85

15. Yuhong Zhang*, Dehydration behaviours of isopropyl group initiate the surface wettability transition of temperature sensitive poly (N-isopropylacrylamide) hydrogel. Mater. Res. Express, 2019, 6: 095704

16. Yuhong Zhang*, Preparation of thermo/redox/pH-stimulative poly (N- isopropylacryamide- co-N, N’-dimethylaminoethyl methacrylate) nanogels and their DOX release behaviors. Journal of Biomedical Materials Research: Part A. 2019:107A:1195–1203

17. Yuhong Zhang*, Photothermally enhanced chemotherapy delivered by graphene oxide-based multi-responsive nanogels. ACS Appl. Bio Mater2019, 2:330-338

18. Yuhong Zhang*, Corrosion suppression of aluminum metal by optimizing lithium salt concentration in solid-state imide salt-based polymer plastic crystal electrolyte membrane. ACS Appl. Energy Mater., 2018112, 7022−7027

19. Yuhong Zhang*, Corrosive environments tolerant, ductile and self-healing hydrogel for highly efficient oil/water separation. Chemical Engineering Journal, 2018,354:1185-1196

20. Yuhong Zhang*, Preparation and controlled drug release characteristics of multi-stimuli responsive P P(NIPAM-DMAEMA-AA) nanosphere. Nanomedicine: Nanotechnology, Biology, and Medicine2018,14:1877-1878

21. Yuhong Zhang*, Mn3O4/Carbon nanotubes nanocomposites as improved anode materials for lithium ion batteries. Journal of Solid State Electrochemistry, 2018,23:3409-3417

22.Yuhong Zhang*, The role of synthetic P (MMA-co-MAH) as compatibilizer in the preparation of chlorinated polyethylene/polysodium acrylate water-swelling rubber. Adv Polym Technol., 2018. 37: 3650–3658

23. Yuhong Zhang*, A facile method to fabricate super-hydrophobic surface with water evaporation-induced phase inversion of stearic acid. Materials Letters2018223124–127

24. Yuhong Zhang*, pH/redox/thermo-stimulative nanogels with enhanced thermosensitivity via incorporation of cationic and anionic components for anticancer drug delivery, International Journal of Polymeric Materials and Polymeric Biomaterials, 201867288-296.

25. Yuhong Zhang *, Robust and underwater superoleophobic coating with excellent corrosion and biofouling resistance in harsh environments. Applied Surface Science, 2018, 436: 152–161.

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