張晶,博士,副教授
郵箱:zhangjingnims@ujs.edu.cn
地址:江蘇大學 藥學院
研究方向:藥物改性及傳輸;藥物載體功能化
工作與教育經曆:
2020.6~至今,江蘇大學,藥學院,藥劑教研室,副教授
2019.11~2020.5,江蘇大學,藥學院,藥劑教研室,資格副教授
2017.9~2019.10,新加坡國立大學,化學與生物分子工程學院,博士後研究員
2017.4~2019.7,日本國家材料研究所,世界頂級計劃材料納米結構學研究中心,博士後研究員
2014.4~2017.3,日本國家材料研究所,世界頂級計劃材料納米結構學研究中心,初級研究員
2014.4~2017.3,築波大學(日本),材料科學與工程,博士
科研項目:
江蘇省高等學校自然科學研究面上項目2022.7-2024.6,主持
江蘇大學高級人才科研啟動基金 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.