Promila Kumari scite author profile

Promila Kumari

4Publications

13Citation Statements Received

15Citation Statements Given

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184

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University of Delhi

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Efficient Use of a Polyamine Carboxylate Ligand to Probe the Extent of Incorporation of Stereochemically Active Bi³⁺ in ThO₂

et al. 2018

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Realizing the advantages of atomic level mixing, high homogeneity precise stoichiometric control and low processing temperatures, co‐precipitation route employing the polyamine carboxylate, ethylenediamine tetra acetic acid (EDTA) has been followed to determine the extent of dissolution of bismuth in ThO2 adopting fluorite structure. While the precursors containing varying amounts of Th4+ and Bi3+ were X‐ray amorphous, calcining them at 800 °C for 6 h yielded crystalline oxides with fluorite structure till Th0.40Bi0.60O2‐δ. This was supported by Raman spectral measurements in which defect band due to oxygen vacancies was present at around 590 cm−1 in addition to the band due to fluorite at around 460 cm−1. An increasing trend of cubic lattice constant with progressive substitution of bismuth in ThO2 was observed. The direct band gap was found to decrease with increase in bismuth content and was lying in the range of 2.54‐3.62 eV. Porous morphology of the samples was evident in their scanning electron microscopic images and they were macro porous as determined from surface area analysis measurements. Th0.50Bi0.50O2‐δ was found to efficiently catalyze the reduction of some nitroaromatics for nearly six cycles.

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Evaluation of solid solution formation between ThO2 and δ-Bi2O3 by molecular precursor route

Pokhriyal

Kumari

Uma

et al. 2018

Materials Research Bulletin

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Antimony substitution leading to structural transformation (Bixbyite→ Fluorite) and altering the optical band gap in Y2O3

Nagarajan

Kumari

2021

Journal of Alloys and Compounds

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Thorium doped and thorium-carbon co doped metastable β-Bi2O3

Nagarajan

Pandey

Kumari

2019

Solid State Sciences

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Promila Kumari

Efficient Use of a Polyamine Carboxylate Ligand to Probe the Extent of Incorporation of Stereochemically Active Bi³⁺ in ThO₂

Evaluation of solid solution formation between ThO2 and δ-Bi2O3 by molecular precursor route

Antimony substitution leading to structural transformation (Bixbyite→ Fluorite) and altering the optical band gap in Y2O3

Thorium doped and thorium-carbon co doped metastable β-Bi2O3

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Promila Kumari

Efficient Use of a Polyamine Carboxylate Ligand to Probe the Extent of Incorporation of Stereochemically Active Bi3+ in ThO2

Evaluation of solid solution formation between ThO2 and δ-Bi2O3 by molecular precursor route

Antimony substitution leading to structural transformation (Bixbyite→ Fluorite) and altering the optical band gap in Y2O3

Thorium doped and thorium-carbon co doped metastable β-Bi2O3

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Efficient Use of a Polyamine Carboxylate Ligand to Probe the Extent of Incorporation of Stereochemically Active Bi³⁺ in ThO₂