Jolaikha Sultana scite author profile

The detailed structural, magnetic, and cryogenic magneto-caloric properties of chromium-substituted gadolinium iron garnet (Gd3Fe5- xCr xO12) nanocrystalline powders were studied using the facile autocombustion method and a calcination temperature of 1100 °C. The X-ray diffraction pattern showed that all samples were single-phase with cubic Ia3 d symmetry. The temperature and field-dependent magnetization data of Gd3Fe5- xCr xO12 samples revealed a ferrimagnetic ordering at low temperatures. Upon Cr3+ substitution, the Curie temperature reduced by 7% at x = 0.25 from 560 K for x = 0.00 sample. In a field up to 5 T, the maximum magnetic entropy change was observed as Δ S M ∼ 3.8 J K−1 kg−1 for x = 0.00 and −Δ S M ∼ 3.9 J K−1 kg−1 for x = 0.25 sample, while the maximum relative cooling power, RCP, value of 420 J kg−1 was measured for x = 0.25 sample, which is 10% larger than the x = 0.00 (RCP ∼ 380 J kg−1). Therefore, Cr3+ substituted Gd3Fe5- xCr xO12 samples exhibit promising magneto-caloric performance and have potential low-temperature magnetic refrigeration applications.

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Tunable Magnetic and Magnetocaloric Properties of Scandium Doped Gd3fe5-Xscxo12 Garnet Compound

Sultana¹,

Mohapatra²,

Bhattarai³

et al. 2023

Preprint

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Bimetallic Co–Fe sulfide and phosphide as efficient electrode materials for overall water splitting and supercapacitor

et al. 2023

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The major center of attraction in renewable energy technology is the designing of an efficient material for both electrocatalytic and supercapacitor (SC) applications. Herein, we report the simple hydrothermal method to synthesize cobalt-iron-based nanocomposites followed by sulfurization and phosphorization. The crystallinity of nanocomposites has been confirmed using X-ray diffraction, where crystalline nature improves from as-prepared to sulfurized to phosphorized. The as-synthesized CoFe-nanocomposite requires 263 mV overpotential for oxygen evolution reaction (OER) to reach a current density of 10 mA/cm2 whereas the phosphorized requires 240 mV to reach 10 mA/cm2. The hydrogen evolution reaction (HER) for CoFe-nanocomposite exhibits 208 mV overpotential at 10 mA/cm2. Moreover, the results improved after phosphorization showing 186 mV to reach 10 mA/cm2. The specific capacitance (Csp) of as-synthesized nanocomposite is 120 F/g at 1 A/g, along with a power density of 3752 W/kg and a maximum energy density of 4.3 Wh/kg. Furthermore, the phosphorized nanocomposite shows the best performance by exhibiting 252 F/g at 1 A/g and the highest power and energy density of 4.2 kW/kg and 10.1 Wh/kg. This shows that the results get improved more than twice. The 97% capacitance retention after 5000 cycles shows cyclic stability of phosphorized CoFe. Our research thus offers cost-effective and highly efficient material for energy production and storage applications.

show abstract

Tunable Magnetic and Magnetocaloric Properties of Scandium Doped Gd3fe5-Xscxo12 Garnet Compound

Sultana¹,

Mohapatra²,

Bhattarai³

et al. 2023

Preprint

View full text Add to dashboard Cite

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