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Professor Jianjun LIU

Close the window author :GUO BaoQiao Release time :2011-10-31


 

Prof. Jianjun LIU

State Key Laboratory of Chemical Resource Engineering, Faculty of Science
Beijing University of Chemical Technology, Beijing, P R China, 100029

Tel: +86-10-6443 1056
Fax: +86-10-6441 4973

E-mail: liujj@mail.buct.edu.cn  

             jjliu717@yahoo.com.cn

Education
B.S., Inner Mongolia University, 1989-1993
M.S., Lanzhou Institute of Chemical Physics, CAS 1993-1996
Ph.D., Institute of Fluid Physics, CAEP 1996-1999

Positions
Post-Doc, Institute of Metals, CAS 1999-2001;
Visiting researcher, National Institute for Materials Sciences, Japan 2003-2004;
Staff, Faculty of Science, Beijing University of Chemical Technology, 2001-present;

Research fields
The research fields of Prof. LIU include shock synthesis and modification of functional materials; chemical synthesis and application of nanosized functional materials; research and development of heterogeneous catalysts. The present research interest aims at the changes of physical and chemical properties of new functional materials synthesized or modified under dynamic loading.

Publications (Selected papers)
[1]Liu J J*, Yu Y C, Liu Z X, Zuo S L, Li B S. AgBr-coupled TiO2: a visible heterostructured photocatalyst for degrading dye pollutants. Int.J.Photoenergy, 2012, ID254201, 7pp.
[2]Liu J J*, Gao X, Chen P W. A possible new C-N phase originated from graphitic carbon nitride loaded by shock wave. Mater.Sci. Forum, 2011, 673: 243-246.
[3]Liu J J*, Shi Z X, Yu Y C, Yang R Q, Zuo S L. Water-soluble multicolored fluorescent CdTe quantum dots: synthesis and application for fingerprint developing. J Colloid Interf. Sci. 2010, 342: 278-282.
[4] Liu J J*, Qin W, Zuo S L, Yu Y C, Hao Z P. Solvothermal-induced phase transition and visible photocatalytic activity of nitrogen-doped titania. J. Hazard. Mater., 2009, 163: 273-278.
[5]Liu J J*, Dong M Q, Zuo S L, Yu Y C. Solvothermal preparation of TiO2/montmorillonite and photocatalytic activity. Appl. Clay Sci., 2009, 43: 156-159.
[6] Liu J J*, Sekine T, Kobayashi T. A new carbon nitride synthesized by shock compression of organic precursors. Solid State Comm., 2006, 137: 21-25.
[7] Liu J J*, Qiu K Q, Wang A M, Zhang H F, Ding B Z, Hu Z Q. Pressure effect on crystallization of Zr55Cu30Al10Ni5 bulk metallic glass. J.Mater.Sci.Technol., 2002, 18: 184-186.
[8] Liu J J*, Wang A M, Zhang H F, Ding B Z, Hu Z Q. In situ synthesis of bulk nanocrystalline Mg-Zn alloy under high pressure. J.Mater.Sci.Lett., 2001, 20: 2009-2011.
[9] Liu J J*, He H L, Jin X G, Hao Z P, Hu Z Q. Synthesis of nanosized nickel ferrites by shock waves and their magnetic properties. Mater.Res.Bull., 2001, 36: 2357-2363.
[10] Liu J J*, Yu Y C, He H L, Jin X G, Xu K. Photocatalytic activity of shock-treated TiO2 powder. Mater.Res.Bull., 2000, 35: 377-382.
[11]Liu J J*, Yang T L, He H L, Tan H, Zhang J, Zheng X M, Xu K. Study on crystalline MgO catalyst treated by shock waves. J.Mater.Sci.Lett., 1997, 16: 927-929.
[12] Liu J J*, Lu G X, He H L, Tan H, Xu T, Xu K. Studies on photocatalytic activity of zinc ferrite catalysts synthesized by shock waves. Mater.Res.Bull., 1996, 31: 1049-1056.