个人简介

2009年7月于williamhill威廉希尔官网获理学学士学位，2014年7月于中国科学院理化技术研究所获得理学博士学位，博士期间获得UCD-CSC奖学金资助，赴爱尔兰都柏林大学（UCD）学习一年。2014年7月至2018年7月在williamhill威廉希尔官网“何崇本能源新材料与器件研究中心”从事博士后研究。

2018年7月起任威廉希尔体育app官网副研究员，主要研究领域为新型多功能荧光材料的制备及应用，胶体与界面化学。结合凝胶软物质的特性，通过化学合成和纳米材料表面修饰，构建新型多功能荧光材料，研究相关基本科学问题，探索多功能荧光材料制备新策略及潜在应用。主持国家自然科学基金面上项目、青年基金项目、中国博士后面上资助项目、陕西省博士后科研资助项目各一项。在Nano Letters， Chemistry of Materials等期刊上发表学术论文30余篇。授权发明专利3项。

代表论文

1. 1.R. Miao, S. Zhang, J. Liu and Y. Fang*.Chem. Mater. 2017, 29, 5957−5964. Zinc-reduced CQDs with highly improved stability, enhanced fluorescence, and refined solid-state applications.

2. 2.R. Miao, L. Mu,H. Zhang,G. She,B. Zhou,H. Xu,P. Wang, W. Shi*.Nano Letters.2014, 14, 3124−3129. Silicon nanowire-based fluorescent nanosensor for complexed Cu²⁺and its bioapplications.

3. 3.R.Miao, L. Mu, H. Zhang, H. Xu, G.She, P. Wang, W. Shi*.J. Mater. Chem.2012, 8, 3348–3353. Modified silicon nanowires: a fluorescent nitric oxide biosensor with enhanced selectivity and stability.

4. 4.R. Miao, L. Mu, H. Zhang, H. Xu, B. Zhou, G. She, P. Wang, W. Shi*. ACS Appl. Mater. & Interfaces, 2013, 5, 1741−1746. Facile method for modification of the silicon nanowires and its application in fabrication of pH-sensitive chips.

5. 5.R. Miao, J. Peng and Y. Fang*.Langmuir2017, 33, 10419−10428. Molecular gels as intermediates in the synthesis of porous materials and fluorescent films: concepts and applications.

6. 6.R. Miao,J. Peng, Y. Fang*Mol. Syst. Des. Eng.2016, 1, 242–257. Recent advances in fluorescent film sensing from the perspective of both molecular design and film engineering.

7. 7. Q. Sun, Y. Lü, L. Liu, K. Liu,R. Miao*, Y. Fang*ACS Appl. Mater. Interfaces2016, 8, 29128−29135. Experimental studies on a new fluorescent ensemble of calix[4]pyrrole and its sensing performance in the film state.

8. 8.Y. Lü, Q. Sun, B. Hu, X. Chen,R.Miao*, Y. Fang*New J. Chem.2015, 40, 1817-1824. Synthesis and sensing applications of a new fluorescent derivative of cholesterol.

9. 8. K. Prapainop,R. Miao, C. Åberg, A. Salvati, K. A. Dawson.Nanoscale, 2017, 9, 11261–11268 Reciprocal upregulation of scavenger receptors complicates interpretation of nanoparticle uptake in non-phagocytic cells.