ZHANG Hao

Source:理学院英文网  Time:2017-12-26  Page Views:10

ZHANG, HAO

Lecturer of Physical Chemistry

School of Science

Phone: 86-15151865575

Email: wuditjdx@126.com

Research Summary

As organic radicals is a kind of atoms, molecules or ions containing unpaired electrons, their life is very short with high chemical reactivity. Therefore, the stabilization of transient radicals has become one of the frontier topics in the field of free radical chemistry. Radical MOF can be synthesized by crystal growth or post-synthesis modification. According to crystal sponge technique and quantum chemistry calculation, radical MOF can be able to realize the structural analysis of unstable radicals without the crystallization process, which is conducive to visualize the bond and reaction mechanism of radicals. Considering that the ordered structure diversity of MOF and open shell electronic structure of radical species endows the materials with novel and intriguing electronic, magnetic, optical, and redox properties, the intensive study of property and function will eventually open new perspective for developing radical MOF crystalline materials.

Education

2016       Ph.D., Materials Physics and Chemistry, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences

2009       B.S.,   PharmacyTianjin University

Publications

1. H. Zhang, Xintao Wu*, Calix-like Metal-Organic Complex for High-Sensitive X-ray-Induced Photochromism. Advanced Science, 2016, 1500224.

2. H. Zhang, Xintao Wu* et al, A luminescent metal-organic framework thermometer with self-calibrated dual emitting from a single organic lumophore, Chemistry – a European Journal, 2016, 22, 1–10.

3. H. Zhang, Xintao Wu* et al, Confinement of electron-capturing guest within an electron-donating framework for X-ray detection, Journal of Materials Chemistry C, 2016, 4, 3431-3436.

4. H. Zhang, Xintao Wu* et al, Stitching 2D polymeric layers into flexible 3D metal-organic frameworks via the sequential self-assembly approach, Crystal Growth & Design , , 2016, 16, 6, 3154–3162.