REFERENCES
- Lund , H. and Hammerich , O. 2001 . Organic Electrochemistry, 4th edn. , New York : Marcel Dekker .
- Pourmortazavi , S. M. , Kohsari , I. and Hajimirsadeghi , S. S. 2009 . Electrosynthesis and thermal characterization of basic copper carbonate nanoparticles . Cent. Eur. J. Chem. , 7 : 74 – 78 .
- Yan , H. Q.R.R. , He , Pham , J. and Yang , P. D. 2003 . Morphogenesis of zinc oxide nano- and micro-crystals . Adv. Mater. , 15 : 402
- Salavati-Niasari , M. , Davar , F. and Mir , N. 2008 . Synthesis and characterization of metallic copper nanoparticles via thermal decomposition . Polyhedron , 27 : 3514
- Xia , Y. N. , Yang , P. D. , Sun , Y. G. , Wu , Y. Y. , Mayers , B. , Gates , B. , Yin , Y. D. , Kim , F. and Yan , H. Q. 2003 . One-dimensional nanostructures: synthesis, characterization, and applications . Adv. Mater. , 15 : 353
- Fathollahi , M. , Pourmortazavi , S. M. and Hosseini , S. G. 2008 . Particle size effects on thermal decomposition of energetic material . J. Ener. Mater. , 26 : 52 – 69 .
- Salavati-Niasari , M. and Davar , F. 2009 . Synthesis of copper and copper(I) oxide nanoparticles by thermal decomposition of a new precursor . Mater. Lett. , 63 : 441
- Pourmortazavi , S. M. and Hajimirsadeghi , S. S. 2005 . Application of supercritical carbon dioxide in energetic materials . Ind. Eng. Chem. Res. , 44 : 6523 – 6533 .
- Volokitin , Y. , Sinzig , J. , deJongh , L. J. , Schmid , G. , Vargaftik , M. N. and Moiseev , I. I. 1996 . Quantum-size effects in the thermodynamic properties of metallic nanoparticles . Nature , 384 : 621 – 623 .
- Jiang , P. , Bertone , J. F. and Colvin , V. L. 2001 . A lost-wax approach to monodisperse colloids and their crystals . Science , 291 : 453 – 457 .
- Pourmortazavi , S. M. , Hajimirsadeghi , S. S. and Rahimi Nasrabadi , M. 2009 . Statistical optimization of condition for synthesis lead sulfide nanoparticles . Mater. Manufuc. Technol. , 24 : 524
- Salavati-Niasari , M. , Mir , N. and Davar , F. 2009 . ZnO nanotriangles: synthesis, characterization and optical properties . J. Alloys Comp. , 476 : 908
- Pourmortazavi , S. M. , Hajimirsadeghi , S. S. , Kohsari , I. , Alamdari , R. F. and Rahimi-Nasrabadi , M. 2008 . Determination of the optimal conditions for synthesis of silver oxalate nanorods . . Chem. Eng. Technol. , 31 : 1532 – 1535 .
- Michalowicz , A. , Girerd , J. J. and Goulon , J. 1979 . EXAFS [extended x-ray absorption fine structure] determination of the copper oxalate structure. Relation between structure and magnetic properties . Inorg. Chem. , 18 : 3004
- Jongen , N. , Bowen , P. , Lemaitre , J. , Valmalette , J. C. and Hofmann , H. 2000 . Precipitation of self-organized copper oxalate polycrystalline particles in the presence of hydroxyl propyl methyl cellulose (HPMC): control of morphology . J. Colloid Interface Sci. , 226 : 189 – 198 .
- Figgis , B. N. and Martin , D. J. 1966 . The magnetic properties and structure of the cupric α,ω-dicarboxylates . Inorg. Chem , 5 : 100
- Dubicki , L. , Harris , C. M. , Kokot , E. and Martin , R. L. 1966 . Magnetic studies with copper(II) salts. VII. The structure of copper(II) α,ω-dicarboxylates and their amine derivatives . Inorg. Chem. , 5 : 93
- Schmittler , H. F. 1984 . Comments on the structure of copper (II) oxalate: discussion of X-ray powder diffraction and EXAFS results as a basis for the interpretation of magnetic properties . Cryst. Res. Technol. , 19 : 1225 – 1230 .
- McGregor , K. T. and Soos , Z. G. 1976 . Anisotropic exchange and temperature-dependent electron paramagnetic resonance line width in one-dimensional copper(II) complexes. 2. Magnetic properties of copper(II) oxalate-1/3-water . Inorg. Chem , 15 : 2159
- Girerd , J. J. , Kahn , O. and Verdaguer , M. 1980 . Orbital reversal in (oxalato) copper(II) linear chains . Inorg. Chem. , 19 : 274
- Soare , L. C. , Bowen , P. , Lemaitre , J. and Hofmann , H. 2006 . J. Phys. Chem. B , 110 : 17763 – 17771 .
- Soare , L. C. , Lemaitre , J. , Bowen , P. and Hofmann , H. 2006 . A thermodynamic model for the precipitation of nanostructured copper oxalates . J. Cryst. Grow. , 289 : 278 – 285 .
- Zhang , D. X. , Xu , H. , Liao , Y. Z. , Li , H. S. and Yang , X. J. 2009 . Synthesis and characterisation of nano-composite copper oxalate powders by a surfactant-free stripping-precipitation process . Powder Technol. , 189 : 404 – 408 .
- Hosseini , S. G. , Pourmortazavi , S. M. and Fathollahi , M. 2004 . Orthogonal array design for the optimization of silver recovery from waste photographic paper . Sep. Sci. Technol. , 39 : 1953 – 1966 .
- Kohsari , I. , Pourmortazavi , S. M. and Hajimirsadeghi , S. S. 2007 . Non-isothermal kinetic study of the thermal decomposition of diaminoglyoxime and diaminofurazan . J. Therm. Anal. Calorim. , 89 : 543 – 546 .
- Azimfar , F. , Kohsari , I. and Pourmortazavi , S. M. 2009 . Investigation on decomposition kinetic and thermal stability of metallocene catalysts . J. Inorg. Organomet. Polym. , 19 : 181 – 186 .
- Salavati-Niasari , M. and Davar , F. 2010 . A novel precursor for synthesis of metallic copper nanocrystals by thermal decomposition approach . Appl. Surf. Sci. , 256 : 4003 – 4008 .
- Donkova , B. and Mehandjiev , D. 2005 . Thermal-magnetic investigation of the decomposition of copper oxalate-a precursor for catalysts . J. Mater. Sci. , 40 : 3881 – 3886 .
- Gabal , M. A. 2003 . Kinetics of the thermal decomposition of CuC2O4-ZnC2O4 mixture in air . Thermochim. Acta , 402 : 199 – 208 .
- Zhang , X. , Zhang , D. , Ni , X. and Zheng , H. 2008 . Optical and electrochemical properties of nanosized CuO via thermal decomposition of copper oxalate . Solid-State Electron , 52 : 245 – 248 .
- Prasad , R. 2003 . Mechanism and kinetics of thermal decomposition of ammoniacal complex of copper oxalate . Thermochim. Acta , 406 : 99 – 104 .
- Jia , Z. , Yue , L. , Zheng , Y. and Xu , Z. 2008 . The convenient preparation of porous CuO via copper oxalate precursor . Mater. Res. Bul. , 43 : 2434 – 2440 .