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Hengzhong Zhang is a Staff Scientist at the Center for High Pressure Science &\rTechnology Advanced Research (HPSTAR). He received his Ph.D. in Metallurgical\rPhysical Chemistry from Central South University (CSU) in 1991. Then, he worked as\ra faculty member at CUS till 1995 and visited the Energy Research Centre of the\rNetherlands 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\rScientist at the University of California Berkeley till 2015. Zhang was a guest editor\rfor a themed issue of CrystEngComm in 2014 and a leading organizer of a Symposium\rof the 2014 MRS Spring Meeting. He had undertaken many US NSF and US DOE\rprojects either as a PI/co-PI or a leading investigator. Zhang’s research spans several\rfields, including Nanoscience, Physical Chemistry, Materials Chemistry, Geochemistry\rand Mineralogy. He has authored or co-authored ~ 80 peer-reviewed scientific\rpublications, which have been cited more than 10,000 times so far.研究领域
"""""High Pressure Physics and Materials Science:\rStructure近期论文
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\r\r\rZhang, 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. \r\r\rLi, 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.\r\r微信公众号简报1; 微信公众号简报2\r\rYan, 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.\r\r\rSong, 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.\r\rZhang, 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.\r 微信公众号简报\r\rLiu, 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. \r\rZhou, 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.\r\rZhang, 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.\r\rJiang, 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.\r\rChen, 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\r\rChen, 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.\rLiu, 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.\r\rLiu, 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.\r\rKe, 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.\r\rChen, 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.\r\rLiu, 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.\r\rDe 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.\r\rZhang, H.*; Banfield, J. F. Structural characteristics and mechanical and thermodynamic properties of nanocrystalline TiO2.Chem. Revs. 2014, 114, 9613 – 9644 .\r\rZhang, H.; De Yoreo, J. J.; Banfield, J. F.* A unified description of attachment-based crystal growth. ACS Nano, 2014, 8, 6526 – 6530. \r标签:
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