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钟虓龑

副研究员

【联系方式】

办公室:东主楼11-218

电话:010-62782347

传真:010-62771160

电子邮件:xyzhong@mail.tsinghua.edu.cn

本人招收本科生与硕士研究生,有意者可随时联系。

         

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1997.9-2001.7:清华大学材料科学与工程系 材料科学与工程专业 工学学士
2001.9-2006.7:清华大学材料科学与工程系 材料科学与工程专业 工学博士

         

2013/12-至今,清华大学,材料学院,副研究员
2010/01-2013/12,清华大学,材料学院,讲师
2006/11-2010/01,美国阿贡国家实验室,材料科学部,博士后,合作导师:Bernd Kabius, Amanda Petford-Long

         

1. 高空间分辨分析电子显微学、像差校正电子显微学、电子能量损失谱、三维电子显微学、原位电子显微学。
2. 电子磁圆二色谱 (Electron Magnetic Circular Dichroism, EMCD)实现原子尺度、占位分辨、元素分辨的定量磁性探测,涉及多铁、金属、非金属等材料的表征。
3. 功能材料的微结构与性能:材料的电子结构、晶体结构、表面与界面结构,材料的磁学、力学、催化性能。材料体系包括纳米材料、薄膜材料、负载型催化剂、金属间化合物、钢铁、高温合金。

(1) Z. C. Wang, A. H. Tavabi, L. Jin, J. Rusz, D. Tyutyunnikov, H. B. Jiang, Y. Moritomo, J. Mayer, R. E. Dunin-Borkowski, R. Yu, J. Zhu and X. Y. Zhong*, Atomic scale imaging of magnetic circular dichroism by achromatic electron microscopy, Nature Materials, 17, 221-225(2018).
(2) Z. Q. Wang, X. Y. Zhong*, R. Yu, Z. Y. Cheng, J. Zhu*, "Quantitative experimental determination of site-specific magnetic structures by transmitted electrons". Nature Communications, 4,1395,2013
(3) Ping-Luen Ho, Chu-Ping Yu, Qiqi Zhang, Kyung Song, James P. Buban, Si-Young Choi, Rafal E. Dunin-Borkowski, Joachim Mayer, Nyan-Hwa Tai, Jing Zhu, Lei Jin*, Xiaoyan Zhong* , “Effect of cation ratio and order on magnetic circular dichroism in the double perovskites Sr2Fe1+xRe1-xO6". Ultramicroscopy, in press, 2018.
(4) J. Lin, X. Y. Zhong*, C. Song, J. Rusz, V. Kocevski, H.L. Xin, B. Cui, L.L. Han, R.Q. Lin, X.F. Chen and J. Zhu, Detection of magnetic circular dichroism in amorphous materials utilizing a single-crystalline overlayer, Physical Review Materials, 1, 071404(R), 2017.
(5) H. B. Jiang, X. N. Luo, X. Y. Zhong*, H. H. Zhou, C. Y. Wang, J. Shi, H. Dong, In-situ Microstructural Evolutions of 5Mn Steel at Elevated Temperature in a Transmission Electron Microscope, Journal of Iron and Steel Research International, 24: 1109-1114, 2017.
(6) Y. Xia, X. Y. Zhong*, X. X. Ke,* G.-R. Zhang, Z. Y. Cheng, B.-Q. Xu, 3D Quantification of Low-Coordinate Surface Atom Density: Bridging Catalytic Activity to Concave Facets of Nanocatalysts in Fuel Cells, Small, 12(46), 6332–6337, 2016.
(7) J. Lin, X. N. Luo, X. Y. Zhong*, H. H. Zhou, C. Y. Wang, J. Shi, H. Dong, Dislocation Pipe Diffusion of Mn during Annealing of 5Mn Steel, Journal of Iron and Steel Research International, 23 (12), 1277-1280, 2016.
(8) Y. Xia, X. N. Luo, X. Y. Zhong*, H. H. Zhou, C. Y. Wang, J. Shi, In-situ TEM Observation of Cementite Coarsening Behavior of 5Mn Steel during Tempering, Journal of Iron and Steel Research International, 23 (5): 442-446, 2016.
(9) X. N. Luo, X. Y. Zhong*, H. W. Luo, H. H. Zhou, C. Y. Wang, J. Shi, Mn Diffusion at Early Stage of Intercritical Annealing of 5Mn Steel, Journal of Iron and Steel Research International, 22 (11): 1015-1019, 2015.
(10) X. Y. Zhong*, B. Kabius, D. K. Schreiber, et al, "Three-dimensional quantitative chemical roughness of buried ZrO2/In2O3 interfaces via energy-filtered electron tomography", Applied Physics Letters, 100(10): 101604, 2012.
(11) X. Y. Zhong*, H. H. Zhou, F. Y. Wang, Y. F. Zhu, Mapping carbon distribution in 35SiMn steel by energy-filtered transmission electron microscopy, Sceince China Technological Series, 55(7), 1833, 2012.
(12) X. Y. Zhong, Y. C. Chen, N. H. Tai, I. N. Lin, J. M. Hiller and O. Auciello, “Effect of pretreatment bias on the nucleation and growth mechanisms of ultrananocrystalline diamond films via bias-enhanced nucleation and growth: An approach to interfacial chemistry analysis via chemical bonding mapping” Journal of Applied Physics, 105 (3): 034311, 2009.
(13) X. Y. Zhong*, B. Kabius, D. K. Schreiber, et al, Quantification of Interfacial Roughness of In2O3/ZrO2 Superlattice Films in 3D, Microscopy & Microanalysis, 15: 600, 2009.
(14) X. Y. Zhong, J. Zhu, A. H. Zhang, H2-induced environmental embrittlement in ordered and disordered Ni3Fe: An electronic structure approach, Intermetallics, 15 (4): 495, 2007.
(15) X. Y. Zhong, J. Zhu, A. H. Zhang, S. C. Mou, Investigation of Electron structure in the ordered and disordered Ni3Fe by electron energy loss spectroscopy, Applied Physics Letters, 89 (15): 151912, 2006.
(16) X. Y. Zhong, J. Zhu, Data acquisition and processing of electron energy loss spectroscopy and its application in the 3d transition elements, Journal of Chinese Electron Microscopy Society, 25 (2): 90, 2006.
(17) X. Y. Zhong, J. Zhu, J. Y. Liu, Study of the interfacial structure of a Pt/a-Al2O3 model catalyst under high temperature hydrogen reduction, Journal of Catalysis, 236 (1): 9, 2005.     

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