Structure, Morphology, Cation Distribution and Magnetic Properties of Cr3+-Substituted CoFe2O4 Nanoparticles

[1]  Sandeep B. Somvanshi,et al.  Enhancement in surface area and magnetization of CoFe2O4 nanoparticles for targeted drug delivery application , 2018 .

[2]  Prashant B. Kharat,et al.  Temperature dependent viscosity of cobalt ferrite / ethylene glycol ferrofluids , 2018 .

[3]  C. Kale,et al.  Effect of Cr3+ Ions Substitution on Structural and Magnetic Properties of Co Ferrite Nanoparticles , 2018 .

[4]  R. Muduli,et al.  Effect of Cr3+ substitution on electric and magnetic properties of cobalt ferrite nanoparticles , 2016 .

[5]  A. Yıldız,et al.  The Effect of Cr3+ Substitution on Magnetic Properties of CoFe2O4 Nanoparticles Synthesized by Microwave Combustion Route , 2016 .

[6]  W. Qi,et al.  Study of cation magnetic moment directions in Cr (Co) doped nickel ferrites , 2014 .

[7]  S. Singhal,et al.  Substituted cobalt nano-ferrites, CoMxFe2−xO4 (M=Cr3+, Ni2+, Cu2+, Zn2+; 0.2≤x≤1.0) as heterogeneous catalysts for modified Fenton׳s reaction , 2014 .

[8]  H. Shokrollahi,et al.  Magnetic and structural properties of nano sized Dy-doped cobalt ferrite synthesized by co-precipitation , 2014 .

[9]  A. Nagawade,et al.  Structural, electrical, magnetic and dielectric properties of rare-earth substituted cobalt ferrites nanoparticles synthesized by the co-precipitation method , 2014 .

[10]  E. Pervaiz,et al.  Low temperature synthesis and enhanced electrical properties by substitution of Al3+ and Cr3+ in Co–Ni nanoferrites , 2013 .

[11]  C. Focsa,et al.  Rare earth doped cobalt ferrite thin films deposited by PLD , 2013 .

[12]  Lawrence Kumar,et al.  Effect of La3+ substitution on the structural and magnetocrystalline anisotropy of nanocrystalline cobalt ferrite (CoFe2−xLaxO4) , 2012 .

[13]  K. M. Jadhav,et al.  Autocombustion High-Temperature Synthesis, Structural, and Magnetic Properties of CoCrxFe2–xO4 (0 ≤ x ≤ 1.0) , 2011 .

[14]  K. M. Jadhav,et al.  Rietveld structure refinement, cation distribution and magnetic properties of Al3+ substituted NiFe2O4 nanoparticles , 2011 .

[15]  D. Jiles,et al.  EFFECT OF HEAT TREATMENT ON THE MAGNETIC AND MAGNETOELASTIC PROPERTIES OF COBALT FERRITE , 2010 .

[16]  K. M. Jadhav,et al.  Cation distribution by Rietveld, spectral and magnetic studies of chromium-substituted nickel ferrites , 2009 .

[17]  J. Greneche,et al.  Magnetic properties of CoFe1.9RE0.1O4 nanoparticles (RE=La, Ce, Nd, Sm, Eu, Gd, Tb, Ho) prepared in polyol , 2008 .

[18]  A. Maqsood,et al.  Structural, magnetic and electrical properties of cobalt ferrites prepared by the sol–gel route , 2008 .

[19]  M. Iqbal,et al.  Electrical and magnetic properties of chromium-substituted cobalt ferrite nanomaterials , 2008 .

[20]  Jianhui Yang,et al.  Studies on the magnetism of cobalt ferrite nanocrystals synthesized by hydrothermal method , 2008 .

[21]  S. Xiao,et al.  Low-temperature auto-combustion synthesis and magnetic properties of cobalt ferrite nanopowder , 2007 .

[22]  J. Ying,et al.  Synthesis and Applications of Magnetic Nanocomposite Catalysts , 2006 .

[23]  K. M. Jadhav,et al.  Magnetic and dielectric properties of Mg1+x Mnx, Fe2−2x, O4 ferrite system , 2005 .

[24]  Q. Song,et al.  Shape control and associated magnetic properties of spinel cobalt ferrite nanocrystals. , 2004, Journal of the American Chemical Society.

[25]  S. M. Attia,et al.  AC conductivity and dielectric behavior of CoAlxFe2−xO4 , 2004 .

[26]  Z. J. Zhang,et al.  Effects of surface coordination chemistry on the magnetic properties of MnFe(2)O(4) spinel ferrite nanoparticles. , 2003, Journal of the American Chemical Society.

[27]  K. Kondo,et al.  Effect of microstructure on magnetic properties of Ni–Zn ferrites , 2003 .

[28]  I. Safarik,et al.  Magnetic Nanoparticles and Biosciences , 2002 .

[29]  A. Rondinone,et al.  Determination of Magnetic Anisotropy Distribution and Anisotropy Constant of Manganese Spinel Ferrite Nanoparticles , 2001 .

[30]  M. Kahn,et al.  Synthesis and magnetic properties of CoFe2O4 spinel ferrite nanoparticles doped with lanthanide ions , 2001 .

[31]  Chao Liu,et al.  Chemical Control of Superparamagnetic Properties of Magnesium and Cobalt Spinel Ferrite Nanoparticles through Atomic Level Magnetic Couplings , 2000 .

[32]  C. Reddy,et al.  Semiconducting gas sensor for chlorine based on inverse spinel nickel ferrite , 1999 .

[33]  Z. J. Zhang,et al.  SIZE-DEPENDENT SUPERPARAMAGNETIC PROPERTIES OF MGFE2O4 SPINEL FERRITE NANOCRYSTALLITES , 1998 .

[34]  R. White Opportunities in Magnetic Materials , 1985, Science.

[35]  G. Sawatzky,et al.  Cation Distributions in Octahedral and Tetrahedral Sites of the Ferrimagnetic Spinel CoFe2O4 , 1968 .

[36]  J. Slonczewski Anisotropy and Magnetostriction in Magnetic Oxides , 1961 .