张晶，博士，副教授

邮箱：zhangjingnims@ujs.edu.cn

地址：江苏大学 药学院

研究方向：药物改性及传输；药物载体功能化

工作与教育经历:

2020.6~至今，江苏大学，药学院，药剂教研室，副教授

2019.11~2020.5，江苏大学，药学院，药剂教研室，资格副教授

2017.9~2019.10，新加坡国立大学，化学与生物分子工程学院，博士后研究员

2017.4~2019.7，日本国家材料研究所，世界顶级计划材料纳米结构学研究中心，博士后研究员

2014.4~2017.3，日本国家材料研究所，世界顶级计划材料纳米结构学研究中心，初级研究员

2014.4~2017.3，筑波大学（日本），材料科学与工程，博士

科研项目：

江苏省高等学校自然科学研究面上项目2022.7-2024.6，主持

江苏大学高级人才科研启动基金 2021.1-2023.12，主持

科研文章列表:

1. Jing Zhang, Jingchao Li, Naoki Kawazoe  and Guoping Chen*. Composite scaffolds of gelatin and gold nanoparticles with  tunable size and shape for photothermal cancer therapy. Journal of Materials  Chemistry B. 2017; 5(2), 245-53.

2. Jing Zhang, Jingchao Li, Xiuhui Wang,  Naoki Kawazoe and Guoping Chen*. Targeting ligand-functionalized photothermal  scaffolds for cancer cell capture and in situ ablation. Biomaterials Science.  2017; 5(11), 2276-2284.

3. Jing Zhang, Jingchao Li, Shangwu Chen,  Naoki Kawazoe and Guoping Chen*. Preparation of gelatin/Fe₃O₄  composite scaffolds for enhanced and repeatable cancer cell ablation. Journal  of Materials Chemistry B. 2016; 4(34), 5664-72.

4. Jing Zhang, Peng Chang, Chen Zhang,  Guangyao Xiong, Honglin Luo, Yong Zhu, Kaijing Ren, Fanglian Yao and Yizao  Wan*. Immobilization of lecithin on bacterial cellulose nanofibers for  improved biological functions. Reactive and Functional Polymers. 2015; 91-92,  100-107.

5. Jing Zhang, Guigao Liu#, Fang He*,  Lixia Chen and Yuan Huang. Au@Cu₇S₄ yolk-shell  nanoparticles as a 980 nm laser-driven photothermal agent with a heat  conversion efficiency of 63%. RSC Advances, 2015; 5(107), 87903-87907.

6.  Sneha Sree Mullapudi, Jing Zhang,  Shengjie Lu, Juwita Norasmara Rahmat, Ratha Mahendran, En-Tang Kang, Edmund  Chiong and Koon Gee Neoh*. Receptor-targeting drug and drug Carrier for  enhanced killing efficacy against non-muscle-invasive bladder cancer. ACS  Applied Bio Materials. 2019; 2(9), 3763-3773.

7.  Xiuhui Wang, Jing Zhang, Jingchao  Li, Ying Chen, Yazhou Chen, Naoki Kawazoe and Guoping Chen*. Bifunctional  scaffolds for photothermal therapy of breast tumor and adipose tissue  regeneration. Journal of Materials Chemistry B. 2018; 6(46), 7728-7736.

8.  Jingchao Li, Jing Zhang, Ying Chen,  Naoki Kawazoe, and Guoping Chen*. TEMPO-conjugated gold nanoparticles for  reactive oxygen species scavenging and regulation of stem cell  differentiation. ACS Applied Materials & Interfaces. 2017; 9(41),  35683–92.

9.  Xiaomeng Li, Jing Zhang, Naoki  Kawazoe and Guoping Chen*. Fabrication of highly crosslinked gelatin hydrogel  and its influence on chondrocyte proliferation and phenotype. Polymers. 2017;  9(8), 309

10.  Hongling Luo, Jing Zhang, Guangyao  Xiong and Yizao Wan*. Evolution of morphology of bacterial cellulose scaffolds  during early culture. Carbohydrate Polymers. 2014;111, 722-728.

11.  Jingchao Li, Xiaomeng Li, Jing Zhang,  Naoki Kawazoe and Guoping Chen*. Induction of chondrogenic differentiation of  human mesenchymal stem cells by biomimetic gold nanoparticles with tunable RGD  Density. Advanced Healthcare Materials. 2017;6(14), 1700317.

12.  Jingchao Li, Jia'En Jasmine Li, Jing  Zhang, Xinlong Wang, Naoki Kawazoe and Guoping Chen*. Gold nanoparticle  size and shape influence on osteogenesis of mesenchymal stem cells. Nanoscale.  2016;8(15), 7992-8007.

13.  Xiaomeng Li, Shangwu Chen, Jingchao Li, Xinlong Wang, Jing Zhang, Naoki Kawazoe and Guoping Chen*. 3D culture of  chondrocytes in gelatin hydrogels with different stiffness. Polymers. 2016;  8(8), 269.

14.  Guigao Liu, Fang He, Jing Zhang,  Lijun Li, Fengjiao Li, Lixia Chen and Yuan Huang*. Yolk shell structured Fe₃O₄@C@F-TiO₂  microspheres with surface fluorinated as recyclable visible-light driven  photocatalysts. Applied Catalysis B: Environmental. 2014; 150-151, 515-522.

15.  Guangyao Xiong, Honglin Luo, Jing Zhang,  Jun Jin and Yizao Wan*. Synthesis of ZnO by chemical Bath deposition in the  presence of bacterial cellulose. Acta Metallurgica Sinica. 2014; 27(4),  656–66.

16. Guangyao Xiong, Honglin Luo, Feng Gu, Jing Zhang, Da Hu and Yizao Wan*. A  Novel in vitro three-dimensional macroporous scaffolds from bacterial  cellulose for culture of breast cancer cells. Journal of Biomaterials and  Nanobiotechnology. 2013, 4(4), 316-326.