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石玥
Medical School
南方科技大学
广东省
Language: 英语, 汉语
生物材料
表面改性
细胞相互作用
界面
体外模型
呼吸道感染
肠道感染
器官芯片
组织工程
合成生物学
Areas of Focus
- 生物材料表界面修饰及细胞在表界面的行为研究
- 呼吸道/肠道感染体外模型
- 类器官芯片
Work Experience
- 2022.06.01-今,南方科技大学医学院药理系,研究助理教授
- 2022.08.01-2023.05,南方科技大学医学院药理系,高级研究助理
- 2020.06-2022.07,中国科学院深圳先进技术研究院,助理研究员
- 2018.06-2020.06,中国科学院深圳先进技术研究院,博士后
- 2016.03-2017.12,澳大利亚莫纳什大学,实验助教
Academic Background & Achievements
- 2014.03 – 2018.01 博士:莫纳什大学,材料工程
- 2009.09-2013.12 荣誉学士和学士:莫纳什大学和武汉理工大学,材料科学与工程
- 授权发明专利一项(专利授权号:CN 111849218)
Publications
- Harnessing Colloidal Self-Assembled Patterns (cSAPs) to Regulate Bacterial and Human Stem Cell Response at Biointerfaces In Vitro and In Vivo, 石玥, 2021
- Manipulating bacterial biofilms using materiobiology and synthetic biology approaches, 石玥, 2022
- Light-triggered release of ciprofloxacin from an in situ forming click hydrogel for antibacterial wound dressings, 石玥, 2015
- Decoration of Material Surfaces with Complex Physicochemical Signals for Biointerface Applications, 石玥, 2020
- A versatile and rapid coating method via a combination of plasma polymerization and surface-initiated SET-LRP for the fabrication of low-fouling surfaces, 石玥, 2017
- Human platelet lysate (hPL) alters the lineage commitment and paracrine functions of human mesenchymal stem cells via mitochondrial metabolism, 石玥, 2022
- Combinatorial Approach of Binary Colloidal Crystals and CRISPR Activation to Improve Induced Pluripotent Stem Cell Differentiation into Neurons, 石玥, 2022
- Conformationally tuned antibacterial oligomers target the peptidoglycan of Gram-positive bacteria, 石玥, 2020
- Increased cardiomyocyte alignment and intracellular calcium transients using micropatterned and drug-releasing poly(glycerol sebacate) elastomers, 石玥, 2018
- Modified biomimetic core-shell nanostructures enable long circulation and targeted delivery for cancer therapy, 石玥, 2021
- Long circulation and tumor-targeting biomimetic nanoparticles for efficient chemo/photothermal synergistic therapy, 石玥, 2022
- Human Platelet Lysate Supports Mouse Skeletal Myoblast Growth but suppresses Cell Fusion on Nanogrooves, 石玥, 2020
Awards
- 2021 科学传播贡献奖
- 2018 深圳海外高层次C类人才
