M. Srinivasan scite author profile

Samples of small-pore Engelhard titanium silicate ETS-4 and its Sr-exchanged variant, patented by Engelhard Corporation, were successfully synthesized in our laboratory, and the characteristic signatures of their crystal structures were confirmed by X-ray diffraction (XRD). Thermogravimetric analysis (TGA) was carried out to study their thermal behavior and stability, and crystal morphology was examined using a scanning electron microscope (SEM). The synthesized fine crystals were pelletized by pressure binding without the addition of any binder material. Equilibrium and uptake measurements for oxygen, nitrogen, and methane on Na- and Sr-exchanged ETS-4 were then carried out in a constant-volume apparatus. The equilibrium capacities of the three gases in the Na form of ETS-4 were comparable, and Sr exchange did not seem to significantly affect these capacities. However, Sr exchange appreciably increased the uptake rate of nitrogen and reduced that of methane, thereby increasing the kinetic selectivity to a promising level. Capacity and uptake measurements were also conducted on the Sr-exchanged ETS-4 dehydrated at different temperatures. It was observed that increasing dehydration temperature progressively lowered the capacities and also slowed the kinetics of adsorption. Probable reasons for the observed changes in equilibrium capacity and uptake are discussed in detail.

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Influence of Co²⁺ Ion Concentration on the Size, Magnetic Properties, and Purity of CoFe₂O₄ Spinel Ferrite Nanoparticles

Saravanakumar

et al. 2010

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Cobalt ferrite nanoparticles of different sizes are prepared by varying the concentration of Co2+ metal ions using precipitation approach. The average crystallite size, coercivity (H C), and saturation magnetization (M S) increases from 11 to 16 nm, 0.12 to 0.8 kOe, and 28 to 52 emu/g, respectively, as Co2+ ion concentration is reduced from 0.4 to 0.025 M. High resolution transmission electron microscopy and X-ray diffraction analysis confirms that CoFe2O4 nanoparticles are crystalline in nature with cubic structure. Raman spectroscopic investigation shows traces of paramagnetic ferrihydrite in samples prepared with Co2+ ion concentration greater than 0.1 M. These experimental results suggest that metal ion concentration plays an important role in the size, magnetic property and purity of precipitated cobalt ferrite nanoparticles. The variation in the average crystalline size with Co2+ ion concentration is in good agreement with the nucleation theory. Our approach is useful in tuning the size and magnetic properties of cobalt ferrite nanoparticles.

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Cation distribution in NixMg1−xFe2O4 studied by XPS and Mössbauer spectroscopy

Mittal¹,

Chandramohan²,

Bera³

et al. 2006

Solid State Communications

119

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Solid state synthesis of Mg–Ni ferrite and characterization by XRD and XPS

Mittal

Bera

Nithya

et al. 2004

Journal of Nuclear Materials

130

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M. Srinivasan

Cation distribution and particle size effect on Raman spectrum of CoFe2O4

Effect of Ion Exchange and Dehydration Temperature on the Adsorption and Diffusion of Gases in ETS-4

Influence of Co²⁺ Ion Concentration on the Size, Magnetic Properties, and Purity of CoFe₂O₄ Spinel Ferrite Nanoparticles

Cation distribution in NixMg1−xFe2O4 studied by XPS and Mössbauer spectroscopy

Solid state synthesis of Mg–Ni ferrite and characterization by XRD and XPS

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M. Srinivasan

Cation distribution and particle size effect on Raman spectrum of CoFe2O4

Effect of Ion Exchange and Dehydration Temperature on the Adsorption and Diffusion of Gases in ETS-4

Influence of Co2+ Ion Concentration on the Size, Magnetic Properties, and Purity of CoFe2O4 Spinel Ferrite Nanoparticles

Cation distribution in NixMg1−xFe2O4 studied by XPS and Mössbauer spectroscopy

Solid state synthesis of Mg–Ni ferrite and characterization by XRD and XPS

Contact Info

Product

Resources

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Influence of Co²⁺ Ion Concentration on the Size, Magnetic Properties, and Purity of CoFe₂O₄ Spinel Ferrite Nanoparticles