How to cite this paper
Jafarnejad, E., Khanahmadzadeh, S., Ghanbary, F & Enhessari, M. (2016). Synthesis, characterization and optical band gap of Pirochromite (MgCr2O4) Nanoparticles by Stearic Acid Sol-Gel Method.Current Chemistry Letters, 5(4), 173-180.
Refrences
1. Hailiang L., Wenling M., Hongxia Z., Jiyong D., Xiaohua, Y. (2011) Synthesis and Characterization of MgCr2O4:Co2+ Fabricated by a Microwave. Mater Manuf. Process., 2 (6) 1-5
2. Enhessari, M. (2013) Synthesis, characterisation and optical band gap of Cr1.3Fe0.7O3 nanopigments. Pigment & Resin Technology, 42 (6) 347-352.
3. Manoharana S. S., Patil K. S. (1992) Photoluminescent properties of Mg doped ZnO by microwave combustion and microwave polyol method. J. Am. Ceram. Soc., 1 (5) 10-12.
4. Yuvaraj S.V., Nithya D. K., Saiadali F., Sanjeeviraja G., Kalai S. (2013) Investigations on the temperature dependent electrical and magnetic, properties of NiTiO3 by molten saltsynthesis. Mater. Res. Bull., 4 (8) 1110–1116.
5. Kesler, V. G. (2003) Molecular structure design and synthetic approaches to the heterometallic alkoxide complexes. Chem. Commun., 1 (4) 1213–1222.
6. Pouillerie C., Croguennec L., Biensan Ph., Willmann P., Delmas C. (2000) Synthesis and Characterization of New LiNi1-yMgyO2 Positive Electrode Materials for Lithium‐Ion Batteries. J. Electrochem. Soc., 4 (7) 20-61.
7. Martinho H., Moreno N. O., Sanjurjo J. A., Rettori C., García-Adeva A. J., Huber D. L., Oseroff S. B., Ratcliff W., II, Cheong S.-W., Pagliuso P. G., Sarrao J. L., Martins G. B. (2001) Magnetic properties of the frustrated antiferromagnetic spinel ZnCr2O4 and the spin-glass Zn1−xCdxCr2O4 (x=0.05,0.10). Phys. Rev. B., 6 (4) 21–61.
8. Kim B.N., Hiraga K. Morita K., Sakka, Y. (2001) A high-strain-rate superplastic ceramic. Nature, 4 (13) 288-291.
9. Hashimoto S., Yamagushi A. (1995) Growth and characterization of needle-like β-CaCr2O4 crystals. J. Cryst. Growth, 1 (5) 29-43.
10. Segal D. (1997) Chemical synthesis of ceramic materials. J. Mater. Chem., 7 (7) 1297–1305.
11. Drazic G., Trontel M. (1989) Preparation and properties of ceramic sensor elements based on MgCr2O4. J. Sens. Actuators, 1 (8) 40-71.
12. Pingale S. S., Patil S. F., Vinod M. P., Pathak G. (1996) Mechanism of humidity sensing of Ti-doped MgCr2O4 ceramics. Mater. Chem. Phys., 4 (6) 72-78.
13. Lee A. N., Hwang A. I. S., Yoo, H. I. (2001) Nanocrystalline pirochromite spinel through solution combustion synthesis. Nucl. Eng. Des., 2 (5) 5- 23.
14. Nitta T., Terada Z., Hayakawa, S. (1980) .Humidity-Sensitive Electrical Conduction of MgCr2O4-TiO2 Porous Ceramics. J. Am. Ceram. Soc., 6 (3) 29-51.
15. Schoonman J., Dekker J. P., Broers, J. W. (1991) Electrochemical vapor deposition of stabilized zirconia and interconnection materials for solid oxide fuel cells. Solid State Ionics, 4 (6) 299-301.
16. Finocchio E., Busca G., Lorenzelli V., Willey, R. J. (1995) The Activation of Hydrocarbon C-H Bonds over Transition Metal Oxide Catalysts: A FTIR Study of Hydrocarbon Catalytic Combustion over MgCr2O4. J. Catal., 1 (51) 20-41.
17. Busca G., Daturi M., Finocchio E., Lorenzelli V., Ramis, G. (1997) Transition metal mixed oxides as combustion catalysts: preparation, characterization and activity mechanisms. Catal. Today, 3 (3) 2-39.
18. Finocchio E., Ramis G., Busca G., Lorenzelli V., Willey R. J. (1996) On the mechanisms of light alkane catalytic oxidation and oxy-dehydrogenation: an FT-IR study of the n-butane conversion over MgCr2O4 and a Mg-vanadate catalyst. Catal. Today, 2 (8) 3-81.
19. Jafarnejad E., Sonia R., Ghanbarizadeh M. (2016) Synthesis and Characterization Nanocomposite of the Graphene Oxide/Polyacrylic acid Modified with 2-Mercaptoethanol. Polymer Science, Series B, 58 (3) 366–370.
20. Enhessari M., Parviz A., Ozaee K., Karamali E. (2010) Magnetic properties and heat capacity of CoTiO3 nanopowders prepared by stearic acid gel method. J. Exp. Nanosci., 1 (5) 61–68.
21. Nagata K., Nishiwaki R., Nakamura Y., Maruyama T. (1991) Kinetic mechanisms of the formations of MgCr2O4 and FeCr2O4 spinels from their metal oxides. Solid State Ionics, 4 (9) 1-61.
22. Hesse, D. (1997) Control of phase formation and film orientation by molar volume stress during MgO-GeO2 thin-film solid-solid reactions. Solid State Ionics, 9 (5) 11-51.
23. Zhang N. M., Teraoka Y., Yamazoe N. (1987) Oxidation catalysis of perovskites relationships to bulk structure and composition. Chem. Lett., 16 (6) 41-65.
2. Enhessari, M. (2013) Synthesis, characterisation and optical band gap of Cr1.3Fe0.7O3 nanopigments. Pigment & Resin Technology, 42 (6) 347-352.
3. Manoharana S. S., Patil K. S. (1992) Photoluminescent properties of Mg doped ZnO by microwave combustion and microwave polyol method. J. Am. Ceram. Soc., 1 (5) 10-12.
4. Yuvaraj S.V., Nithya D. K., Saiadali F., Sanjeeviraja G., Kalai S. (2013) Investigations on the temperature dependent electrical and magnetic, properties of NiTiO3 by molten saltsynthesis. Mater. Res. Bull., 4 (8) 1110–1116.
5. Kesler, V. G. (2003) Molecular structure design and synthetic approaches to the heterometallic alkoxide complexes. Chem. Commun., 1 (4) 1213–1222.
6. Pouillerie C., Croguennec L., Biensan Ph., Willmann P., Delmas C. (2000) Synthesis and Characterization of New LiNi1-yMgyO2 Positive Electrode Materials for Lithium‐Ion Batteries. J. Electrochem. Soc., 4 (7) 20-61.
7. Martinho H., Moreno N. O., Sanjurjo J. A., Rettori C., García-Adeva A. J., Huber D. L., Oseroff S. B., Ratcliff W., II, Cheong S.-W., Pagliuso P. G., Sarrao J. L., Martins G. B. (2001) Magnetic properties of the frustrated antiferromagnetic spinel ZnCr2O4 and the spin-glass Zn1−xCdxCr2O4 (x=0.05,0.10). Phys. Rev. B., 6 (4) 21–61.
8. Kim B.N., Hiraga K. Morita K., Sakka, Y. (2001) A high-strain-rate superplastic ceramic. Nature, 4 (13) 288-291.
9. Hashimoto S., Yamagushi A. (1995) Growth and characterization of needle-like β-CaCr2O4 crystals. J. Cryst. Growth, 1 (5) 29-43.
10. Segal D. (1997) Chemical synthesis of ceramic materials. J. Mater. Chem., 7 (7) 1297–1305.
11. Drazic G., Trontel M. (1989) Preparation and properties of ceramic sensor elements based on MgCr2O4. J. Sens. Actuators, 1 (8) 40-71.
12. Pingale S. S., Patil S. F., Vinod M. P., Pathak G. (1996) Mechanism of humidity sensing of Ti-doped MgCr2O4 ceramics. Mater. Chem. Phys., 4 (6) 72-78.
13. Lee A. N., Hwang A. I. S., Yoo, H. I. (2001) Nanocrystalline pirochromite spinel through solution combustion synthesis. Nucl. Eng. Des., 2 (5) 5- 23.
14. Nitta T., Terada Z., Hayakawa, S. (1980) .Humidity-Sensitive Electrical Conduction of MgCr2O4-TiO2 Porous Ceramics. J. Am. Ceram. Soc., 6 (3) 29-51.
15. Schoonman J., Dekker J. P., Broers, J. W. (1991) Electrochemical vapor deposition of stabilized zirconia and interconnection materials for solid oxide fuel cells. Solid State Ionics, 4 (6) 299-301.
16. Finocchio E., Busca G., Lorenzelli V., Willey, R. J. (1995) The Activation of Hydrocarbon C-H Bonds over Transition Metal Oxide Catalysts: A FTIR Study of Hydrocarbon Catalytic Combustion over MgCr2O4. J. Catal., 1 (51) 20-41.
17. Busca G., Daturi M., Finocchio E., Lorenzelli V., Ramis, G. (1997) Transition metal mixed oxides as combustion catalysts: preparation, characterization and activity mechanisms. Catal. Today, 3 (3) 2-39.
18. Finocchio E., Ramis G., Busca G., Lorenzelli V., Willey R. J. (1996) On the mechanisms of light alkane catalytic oxidation and oxy-dehydrogenation: an FT-IR study of the n-butane conversion over MgCr2O4 and a Mg-vanadate catalyst. Catal. Today, 2 (8) 3-81.
19. Jafarnejad E., Sonia R., Ghanbarizadeh M. (2016) Synthesis and Characterization Nanocomposite of the Graphene Oxide/Polyacrylic acid Modified with 2-Mercaptoethanol. Polymer Science, Series B, 58 (3) 366–370.
20. Enhessari M., Parviz A., Ozaee K., Karamali E. (2010) Magnetic properties and heat capacity of CoTiO3 nanopowders prepared by stearic acid gel method. J. Exp. Nanosci., 1 (5) 61–68.
21. Nagata K., Nishiwaki R., Nakamura Y., Maruyama T. (1991) Kinetic mechanisms of the formations of MgCr2O4 and FeCr2O4 spinels from their metal oxides. Solid State Ionics, 4 (9) 1-61.
22. Hesse, D. (1997) Control of phase formation and film orientation by molar volume stress during MgO-GeO2 thin-film solid-solid reactions. Solid State Ionics, 9 (5) 11-51.
23. Zhang N. M., Teraoka Y., Yamazoe N. (1987) Oxidation catalysis of perovskites relationships to bulk structure and composition. Chem. Lett., 16 (6) 41-65.