个人简介
李敏杰博士,1980年出生于吉林省伊通县,2009年获得吉林大学高分子化学与物理专业博士学位,博士期间以国家公派联合培养博士生身份在加拿大国家研究院学习一年,博士毕业后,到大连理工大学化工学院工作一年余,2010年被吉林大学超分子结构与材料国家重点实验室引进。
研究领域
(1) 超分子自组装体的仿生功能研究。生物分子的自组装方法,动态自组装的调控与跟踪方法,组装体的 手 性、催化等功能。(2) 光电显示与传感。开发环境友好,有实际应用前景的光电显示与传感材料及技术。
近期论文
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1. Hydrochromic Molecular Switches for Water-Jet Rewritable Paper, L. Sheng, M. Li*, S. Zhu, H. Li, G. Xi, Y.-G. Li, Y.i Wang, K. Zhong and S. X.-A. Zhang*, Nature Commun., accepted, (2013) 2. Time-resolved monitoring of dynamic self-assembly of Au (I)-thiolate coordination polymers, H. Nie, M. Li,* Y. Hao, X. Wang, S. X-A. Zhang,* Chem. Sci., 4, 1852–1857 (2013). 3. Stress acidulated amphoteric molecules and mechanochromism via reversible intermolecular proton transfer, Y. Wang, M. Li,* Y. Zhang, J. Yang, S. Zhu, L. Sheng, X. Wang, B. Yang and S. X.-A. Zhang,* Chem Commun., 49, 6587-6589 (2013). 4. A new class of “electro-acid/base”-induced reversible methyl ketone colour switches, Y. Zhang, M. Li,* W. Li, Z. Huang, S. Zhu, B. Yang, X. Wang and S. X.-A. Zhang,* J. Mater. Chem. C, 1, 6309-6314 (2013). 5. Highly durable colour/emission switching of fluorescein in a thin film device using “electro-acid/base’’ as in situ stimuli, Y.-M. Zhang, W. Li, X. Wang, B. Yang, M. Li* and S. X.-A. Zhang* Chem Commun., DOI: 10.1039/c3cc44924f. 6. A spirooxazine derivative as a highly sensitive cyanide sensor by means of UV-visible difference spectroscopy, S. Zhu, M. Li,* L. Sheng, P. Chen, Y. Zhang and S. X.-A. Zhang,* Analyst, 137, 5581-5585 (2012). 7. CdTe Nanocrystal - Polymer Composite Thin Film without Fluorescence Resonance Energy Transfer by Using Polymer Nanospheres as Nanocrystal Carriers, M. Li, X. Xu, Y. Tang, Z. Guo, H. Zhang, H. Zhang, B. Yang,* J. Colloid and Interface Sci., 346, 330–336 (2010). 8. Photoluminescent quantum dot –cucurbituril nanocomposites, M. Li, Md. B. Zaman, D. Bardelang, * X. Wu, D. Wang, J. C. Margeson, D. M. Leek, J. A. Ripmeester, C. I. Ratcliffe, Q. Lin, B. Yang, K. Yu,*Chem. Commun., 6807–6809 (2009). 9. CdS Magic-Sized Nanocrystals Exhibiting Bright Band Gap Photoemission via Thermo- dynamically Driven Formation, M. Li, J. Ouyang, C. I. Ratcliffe, L. Pietri, X. Wu, D. M. Leek, I. Moudrakovski, Q. Lin, B. Yang, K. Yu,*ACS Nano, 3, 3832-3838 (2009). 10. Electrospinning: A Facile Method to Disperse Fluorescent Quantum Dots in Nanofibers without Förster Resonance Energy Transfer, M. Li, J. Zhang, H. Zhang, Y. Liu, C. Wang, X. Xu, Y. Tang, . B. Yang, Adv. Funct. Mater.,17, 3650–3656 (2007).