张衡中 - 北京高压科学研究中心 -

个人简介

Hengzhong Zhang is a Staff Scientist at the Center for High Pressure Science & Technology Advanced Research (HPSTAR). He received his Ph.D. in Metallurgical Physical Chemistry from Central South University (CSU) in 1991. Then, he worked as a faculty member at CUS till 1995 and visited the Energy Research Centre of the Netherlands in 1996. Following post-doctoral work at the University of WisconsinMadison, he became a Staff Researcher there till 2002. Since then, he worked as a Staff Scientist at the University of California Berkeley till 2015. Zhang was a guest editor for a themed issue of CrystEngComm in 2014 and a leading organizer of a Symposium of the 2014 MRS Spring Meeting. He had undertaken many US NSF and US DOE projects either as a PI/co-PI or a leading investigator. Zhang’s research spans several fields, including Nanoscience, Physical Chemistry, Materials Chemistry, Geochemistry and Mineralogy. He has authored or co-authored ~ 80 peer-reviewed scientific publications, which have been cited more than 10,000 times so far.

研究领域

High Pressure Physics and Materials Science: Structure, electrical transport, bandgap and mechanical properties of alloys, oxides, chalcogenides, oxy-chalcogenides, and borides at high pressure. High Pressure Nanoscience: Structural, mechanical, electrical, electronic and optical properties of nanomaterials at high pressure; non-classical nanocrystal growth under high pressure conditions. High Pressure Chemistry: High-temperature & high-pressure chemical reactions of molecules relevant to origin of life and sustainability of life at extreme conditions. Applications of Novel Materials in Catalysis and Energy Storage / Conversion: Applications of novel materials, including layered van der Waals materials and high-entropy materials, in electrocatalytic splitting of water, solar energy conversion, and lithium batteries.

近期论文

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Li, W.; Li, C.; Dong, H.; Zhang, X.; Liu, J.; Song, M.; Wang, G.; Zhao, L.; Sheng, H.; Chen, B.; Zhang, H.*Expediting Oxygen Evolution by Optimizing Cation and Anion Complexity in Electrocatalysts Based on Metal Phosphorous Trichalcogenides. Angew. Chem. Inter. Ed. https://onlinelibrary.wiley.com/doi/10.1002/anie.202214570 Zhang, X.; Li, W.; Wan, S.; Feng, J.; Song, M.; Liu, J.; Wang, G.; Chen, Z.; Chen, B.; Zhang, H.* Pressure Dependence of the Electrical Conductivities of High-Entropy Diborides. J. Euro. Ceram. Soc. 2022, 42 (15), 6951–6957. Li, W.; Feng, J.; Zhang, X.; Li, C.; Dong, H.; Deng, W.; Liu, J.; Tian, H.; Chen, J.; Jiang, S.; Sheng, H.; Chen, B.; Zhang, H.*Metallization and Superconductivity in the van der Waals Compound CuP2Se through Pressure-Tuning of the Interlayer Coupling. J. Am. Chem. Soc. 2021, 143, 20343–20355. 微信公众号简报1; 微信公众号简报2 Yan, J.; Zhang, L.; Liu, J.; Li, N.; Tamura, N.; Chen, B.; Lin, Y.; Mao, W. L.; Zhang, H.Pressure-Induced Suppression of Jahn–Teller Distortions and Enhanced Electronic Properties in High-Entropy Oxide (Mg0.2Ni0.2Co0.2Zn0.2Cu0.2)O. Appl. Phys. Lett. 2021, 119, 151901. Song, M.; Li, W.; Zhang, X.; Liu, J., Li, K.; Zhang, H.* Structural Stability of L-Cystine under Extreme Conditions. ACS Earth Space Chem., 2021, 5, 1525 - 1534. Zhang, X.; Li, W.; Tian, H.; Liu, J.; Li, C.; Dong, H.; Chen, J.; Song, M.; Chen, B.; Sheng, H.; Wang, S.; Zhang, D.; Zhang, H.*Ultra-Incompressible High-Entropy Diborides. J. Phys. Chem. Lett. 2021, 3106–3113. 微信公众号简报 Liu, J.; Chen, J.; Li, W.; Tian, H.; Zhang, X.; Li, N.; Yan, J.; Kunz, M.; Chen, B.; Zhang, H.* Differentiating Electrical and Optoelectrical Properties of Oxysulfides La2Ta2MS2O8 (M=Zr, Ti) via Application of Pressure. J. Phys. Chem. C 2020, 124, 14477 - 14484. Zhou, X.; Feng, Z.; Zhu, L.; Xu, J.; Miyagi, L.; Dong, H.; Sheng, H.; Wang, Y.; Li, Q.; Ma, Y.; Zhang, H.; Yan, J.; Tamura, N.; Kunz, M.; Lutker, K.; Huang, T.; Hughes, D. A.; Huang, X.*; Chen, B.* High-Pressure Strengthening in Ultrafine-Grained Metals. Nature 2020, 579 (7797), 67–72. Zhang, X.; Tian, H.; Li, W.; Liu, W.; Chen, J.; Liu, J.; Han, X.; Yan, B.; Chen, Z.; Gou, H.; Li, K.; Jiang, H.; Zhang, D.; Kunz, M.; Zhang, H.* High-Pressure Phase Transitions in Densely Packed Nano-Crystallites of TiO2-II. J. Phys. Chem. C 2019, 124(1), 1197-1206. Jiang, X.; Yan, Z.; Zhang, J.; Gao, J.; Huang, W.*; Shi, Q.*; Zhang, H. Mesoporous Hollow Black TiO2 with Controlled Lattice Disorder Degrees for Highly Efficient Visible-Light-Driven Photocatalysis. RSC Adv. 2019, 9 (63), 36907–36914. Chen, B.*; Huang, Y.; Xu, J.; Zhou, X.; Chen, Z.; Zhang, H.; Zhang, J.; Qi, J.; Lu, T.; Banfield, J. F.; et al. Revealing the Ductility of Nanoceramic MgAl2O4. J. Mater. Res. 2019, 34 (9), 1489–1498 Chen, J.; Liu, W.; Liu, J.; Zhang, X.; Yuan, M.; Zhao, Y.; Yan, J.; Hou, M.; Yan, J.; Kunz, M.; Tamura, N.; Zhang, H.*; Yin, Z.* Stability and Compressibility of Cation-Doped High-Entropy Oxide MgCoNiCuZnO5, J. Phys. Chem. C 2019, 123(9), 17735-17744. Liu, J.; Yan, J.; Shi, Q.; Dong, H.; Zhang, J.; Wang, Z.; Huang, W.; Chen, B.; Zhang, H.*Pressure Dependence of Electrical Conductivity of Black Titania Hydrogenated at Different Temperatures. J. Phys. Chem. C 2019, 123 (7), 4094–4102. Liu, W.; Chen, J.; Zhang, X.; Yan, J.; Hou, M.; Kunz, M.; Zhang, D.; Zhang, H.* Pressure-Induced Phase Transitions of Natural Brookite. ACS Earth Space Chem. 2019, 3 (5), 844–853. Ke, F.; Chen, Y.; Yin, K.; Yan, J.; Zhang, H.; Liu, Z.; Tse, J. S.; Wu, J.; Mao, H.*; Chen, B.* Large Bandgap of Pressurized Trilayer Graphene. PNAS, 2019, 116 (19), 9186-9190. Chen, B.*; Lin, J.-F.; Chen, J.; Zhang, H.; Zeng, Q. Synchrotron-Based High-Pressure Research in Materials Science. MRS Bulletin 2016, 41 (06), 473–478. Liu, G.*; Kong, L.; Yan, J.; Liu, Z.; Zhang, H.; Lei, P.; Xu, T.; Mao, H.; Chen, B.*Nanocrystals in Compression: Unexpected Structural Phase Transition and Amorphization Due to Surface Impurities. Nanoscale 2016, 8 (23), 11803–11809. De Yoreo, J. J.; Gilbert, P. U. P. A.; Sommerdijk, N. A. J. M.; Penn, R. L.; Whitelam, S.; Joester, D.; Zhang, H.; Rimer, J. D.; Navrotsky, A.; Banfield, J. F.; Wallace, A. F.; Michel, F. M.; Meldrum, F. C.; Colfen, H.; Dove, P. M.*Crystallization by particle attachment in synthetic, biogenic, and geologic environments. Science 2015, 349, aaa6760. DOI: 10.1126/science.aaa6760. Zhang, H.*; Banfield, J. F. Structural characteristics and mechanical and thermodynamic properties of nanocrystalline TiO2.Chem. Revs. 2014, 114, 9613 – 9644 . Zhang, H.; De Yoreo, J. J.; Banfield, J. F.* A unified description of attachment-based crystal growth. ACS Nano, 2014, 8, 6526 – 6530.