開啟主選單

求真百科

孔祥華,女,合肥工業大學化學與化工學院副教授。

目錄

人物履歷

1999.9-2003.6,山東大學,化學與化工學院,學士。

2003.9-2008.6,中國科學院化學研究所,分子納米結構與納米技術院重點實驗室,博士。

2008.7-2010.8,德國萊布尼茨固態與材料研究所,綜合納米科學分所,博士後。

2012.7-2013.8,美國德克薩斯州立大學奧斯汀分校,機械工程系,博士後。

2013.12—至今,合肥工業大學,化學工程學院,副研究員(副教授)。

研究領域

低維納米材料的可控制備、結構表徵、物性測量及其應用研究

1, 化學氣相沉積法薄膜材料的可控制備與可控摻雜,包括大面積單層/多層石墨烯、其它二維晶體材料及其異質複合結構

2, 二維晶體材料的快速檢測、無損轉移及其在透明導電薄膜傳感器等領域的應用

獲獎及專利情況

著作論文

  • (1) C. W. Magnuson,+ X. H. Kong+, H. X. Ji, C. Tan, H. F. Li, R. D. Piner, C. A. Ventrice, Jr., and R. S. Ruoff*, Copper oxide as a 『self-cleaning』 substrate for graphene growth, J. Mater. Res., 2014, 29, 403. (+co-first author)
  • (2) H. X. Ji, D. P. Sellan, M. T. Pettes, X. H. kong, J. Y. Ji, L. Shi, R. S. Ruoff*, Enhanced thermal conductivity of phase change materials with ultrathin-graphite foams for thermal energy storage, Energy Environ. Sci., 2014. DOI: 10.1039/C3EE42573H.
  • (3) X. H. Kong, H. X. Ji, R. D. Piner, H. F. Li, C. W. Magnuson, C. Tan, A. Ismach, H. Chou, R. S. Ruoff*, Non-destructive and rapid evaluation of large-area chemical vapor deposition graphene by dark field optical microscopy, Appl. Phys. Lett., 2013, 103, 043119.
  • (4) R. Piner, H. F. Li*, X. H. Kong, L. Tao, I. N. Kholmanov, H. X. Ji, W. H. Lee, J. W. Suk, J. Ye, Y. F. Hao, S. S. Chen, C. W. Magnuson, A. F. Ismach, D. Akinwande, R. S. Ruoff*, Graphene synthesis via magnetic inductive heating of copper substrates, ACS Nano 2013, 7,7495.
  • (5) H. Schmidt*, X. H. Kong*, C. Deneke, O. G. Schmidt, Dielectrophoretic manipulation of rolled-up microtubes by surface acoustic waves, Proceedings of the 2011 6th IEEE International Conference, 2012, 1204. (*corresponding author)
  • (6) X. H. Kong*, C. Deneke*, H. Schmidt*, D. J. Thurmer, H. X. Ji, M. Bauer, O. G. Schmidt, Surface acoustic wave mediated dielectrophoretic alignment of rolled-up microtubes in microfluidic systems, Appl. Phys. Lett., 2010, 96, 134105.
  • (7) X. H. Kong, S. B. Lei, Y. L. Yang, K. Deng, G. C. Qi, C. Wang*, Identification of molecular flipping of an asymmetric tris(phthalocyaninato) lutetium triple-decker complex by scanning tunneling microscopy/spectroscopy, Nano Rearch, 2009, 2, 235.
  • (8) X. H. Kong, K. Deng, Y. L. Yang, S. B. Lei, C. Wang*, Effect of electrostatic interactions on metallophthalocyanine single molecular arrays with n-octadecyl mercaptan templates, J. Nanosci. Nanotechno., 2009, 9,1152.
  • (9) X. H. Kong, Y. L. Yang, S. B. Lei, C. Wang*, On the topography multiplicity of non-planar titanyl (IV) phthalocyanine molecules and the STM imaging mechanism, Surf. Sci. 2008, 602, 684.
  • (10) X. H. Kong, K. Deng, Y. L. Yang, Q. D. Zeng, C. Wang*, H-bond switching mediated multiple flexibility in supramolecular host-guest architectures, J. Phys. Chem. C, 2007, 111,17382.
  • (11) X. H. Kong, K. Deng, Y. L. Yang, Q. D. Zeng, C. Wang*, Effect of thermal annealing on hydrogen bond configurations of host lattice revealed in VOPc/TCDB host-guest architectures, J. Phys. Chem. C, 2007, 111,9235.
  • (12) X. H. Kong, M. Wang, S. B. Lei, Y. L. Yang, C. Wang*, Electronic sensory behavior of titanyl phthalocyanine revealed by scanning tunneling spectroscopy and cyclic voltammetry methods, J. Mater. Chem. 2006, 16, 4265.[1]

參考資料

  1. [h ttp://hgxy.hfut.edu.cn/main.htm 合肥工業大學化學與化工學院 ]