Growth of Star Shaped Copper Iodate Crystals in Gel and Effect of Various Parameters on Crystal Growth

Authors

  • K. P. Joshi  Nano Material Application Lab., Department of Physics, Institute of Science, Madam Kama Road, Fort, Mumbai, Maharashtra, India
  • B. S. Nadekar  Nano Material Application Lab., Department of Physics, Institute of Science, Madam Kama Road, Fort, Mumbai, Maharashtra, India
  • Barun k Mehata  Department of Chemistry, National Defence Academy, Pune, Maharashtra, India

Keywords:

Copper iodate, Crystal growth, Single diffusion method,Gel technique,starshaped crystal.

Abstract

The present manuscript reports several aspects regarding the growth procedure of copper iodate Cu(IO3)2 H2O crystal, optimum growth conditions and the kinetics i.e. influence of different growth parameters to obtain optimization conditions for the growth of these crystals. It is also predicts the results obtained from the different techniques used for the characterization of gel grown crystals of copper iodate.gel technique ,Aging effect density,Nucleation,growth parameters at ambient temperature are discussed.

References

  1. Qiuliang, Luo, Copper dissolution behavior in acidic iodate solutions, Langmuir 11, 2000, 5154-5158.
  2. Li Guanghua, Shi Zhan, Liu Xiaomin, Dai Zhimin, Gao Lu, Feng Shouhua, Inorganic Chemistry 26, 2004, 8224-8226.
  3. H. Wang, G. Wang, P. Bao et al, Controllable synthesis of submillimeter single-crystal monolayer graphene domains on copper foils by suppressing nucleation, Journal of the American Chemical Society 8, 2012, 3627-3630.
  4. M. Anik, Selection of an oxidant for copper chemical mechanical polishing: Copper-iodate system, Journal of Applied Electrochemistry 1, 2005, 1-7.
  5. D. Cooke, On the effect of copper (II) and chloride ions on the iodate???hydrogen peroxide reaction in the presence and absence of manganese (II), International Journal of Chemical Kinetics 10, 1980, 671- 681.
  6. A. Rogbertson, J. Warner, Hexagonal single crystal domains of few-layer graphene on copper foils, Nano Letters 3, 2011, 1182-1189.
  7. Pourmortazavi S. M., Hajimirsadeghi S. S., Optimization of parameters for the synthesis of silver iodate submicron belts by Taguchi robust design method, Chemical Engineering Communications 10, 2011, 1182-1188.
  8. D. Mott, J. Galkowski, L. Wang et al, Synthesis of size-controlled and shaped copper nanoparticles, Langmuir10, 2007, 5740-5745.
  9. H. Ghorbani, Chemical synthesis of copper nanoparticles, Oriental Journal of Chemistry 2, 2014, 803-806.
  10. J. Barton, A. Vertegel, E. Bohhanan et al, Epitaxial electrodeposition of copper(I) oxide on single-crystal copper, Chemistry of Materials 3, 2001, 952-959.
  11. S. Chemler, Copper catalysis in organic synthesis, Beilstein Journal of Organic Chemistry 11, 2015, 2252-2253.
  12. B. Park, S. Jeong, D. Kim et al, Synthesis and size control of monodisperse copper nanoparticles by polyol method, Journal of Colloid and Interface Science 2, 2007, 417-424.
  13. F. Outten, D, Huffman, J. Hale et al, The Independent cue and cus Systems Confer Copper Tolerance during Aerobic and Anaerobic Growth in Escherichia coli, Journal of Biological Chemistry 276, 30670-30677.

International Journal of Scientific Research in Science and Technology

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Published

2018-03-10

Issue

Volume 4, Issue 4, March-April-2018

Section

Research Articles

License

Copyright (c) IJSRST

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This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
K. P. Joshi, B. S. Nadekar, Barun k Mehata, " Growth of Star Shaped Copper Iodate Crystals in Gel and Effect of Various Parameters on Crystal Growth, International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011, Volume 4, Issue 4, pp.135-140, March-April-2018.