Research Paper

Study on Polycrystalline C3N4 Prepared by Blast Shock

  • YU Yan-Wu ,
  • LIU Yu-Cun ,
  • ZHANG Hai-Long ,
  • CHEN Cui-Cui
Expand
  • Chemical Industry and Ecology Institute, North University of China, Taiyuan 030051, China

Received date: 2008-08-11

  Revised date: 2008-11-12

  Online published: 2009-05-20

Abstract

A new technique was developed to synthesize the superhard material C3N4 in which high pressure and temperature needed in the reaction were supplied by RDX explosive charge and dicyandiamide (C2H4N4) was used as the primary precursor. The structure, valencebond character and elemental composition of the sample prepared under 16GPa pressure were characterized by the scanning electron microscope (SEM), X-ray diffraction analysis (XRD), X-ray photoelectron spectroscopy analysis (EDS) and infrared spectrometer (FTIR) respectively. The results show that the XRD pattern is in accordance with the theoretical value, i.e., α-C3N4, β-C3N4, graphite-C3N4 and intercrystal-C3N4 are recognised in the products. The mass ratio of carbon to nitrogen is about 1.00∶2.98 and nitrogen is mostly bonded with carbon by CN. Some hexagonal β-C3N4 particles with size of 2μm are observed through SEM. Powder of polycrystalline C3N4 is synthesized successfully and its formation mechanism is discussed.

Cite this article

YU Yan-Wu , LIU Yu-Cun , ZHANG Hai-Long , CHEN Cui-Cui . Study on Polycrystalline C3N4 Prepared by Blast Shock[J]. Journal of Inorganic Materials, 2009 , 24(3) : 627 -630 . DOI: 10.3724/SP.J.1077.2009.00627

References

1]Liu Amy Y, Cohen Marvin L. Science,1989, 245(8): 841-842.
[2]Liu Amy Y, Cohen Marvin L. Physical Review B, 1990, 41(15): 10727-10734.
[3]David M Teter, Russell J Hemley. Science, 1996, 271(6): 53-55.
[4]Sekine T, Kanda H, Bando Y, et al. Journal of Materials Science Letters,1990, 9(12): 1376-1378.
[5]Nguyen Jeffrey H, Jeanloz Raymond. Materials Science and Engineering A, 1996,209(1-2):23-25.
[6]Niu Chunming, Lu Yuan Z, Lieber Charles M. Science, 1993, 261(16): 334-336.
[7]Hartmann J, Siemroth P, Schultrich B, et al. J. Vac. Sci. Technol. A, 1997, 15(6):2983-2987.
[8]Tani Youji, Aoi Yoshifumi, Kamijo Eiji. Appl. Phys. Lett., 1998, 73(12):1652-1654.
[9]顾有松,张永平,常香荣,等.中国科学(A辑), 1999, 29(8):757-768.
[10]Bai YuJun, Lü Bo, Liu ZhenGang, et al. Journal of Crystal Growth, 2003, 247(3): 505-508.
[11]Fahmy Y, Shen T D, Tucker D A, et al. Journal of Materials Research, 1999, 14(6): 2488-2499.
[12]王祖光,张运生. 超硬材料工程, 2005,17(2):60-62.
[13]王作山, 刘玉存, 郑 敏,等. 应用基础与工程科学学报, 2001,9(4):316-319.
[14]Matsumoto S,Xie E Q, Izumi F. Diam. Relat. Mater.,1999,8(7):1175-1182.
[15]陈光华, 吴现成, 贺德衍(CHEN GuangHua, et al).无机材料学报(Journal of Inorganic Materials), 2001,16(2):377-380.
[16]耿东生,杨振江,刘正堂,等. 微细加工技术,1998,21(3):72-77.
[17]王恩哥. 物理,1997,26(1):1-2.
[18]张生俊,陈光华,邓金祥,等. 物理,2001,30(10):622-627.
[19]徐 竹,马俊辉,陈 军,等. 特种橡胶制品,2005,26(6):21-23.
[20]杨 筠,林志明,崔 猛,等(YANG Jun, et al). 无机材料学报(Journal of Inorganic Materials),2007, 22(4):590-594.
[21]Meng X Q,Zhang Z H,Guo H X,et al. Solid State Commuication, 1998, 107(2): 75-78.
Outlines

/