Articoli con mandati relativi all'accesso pubblico - Dr. Amtul NashimUlteriori informazioni
Non disponibili pubblicamente: 4
Gd2Ti2O7/In2O3: Efficient Visible‐Light‐Driven Heterojunction‐Based Composite Photocatalysts for Hydrogen Production
A Nashim, S Martha, KM Parida
ChemCatChem 5 (8), 2352-2359, 2013
Mandati: Council of Scientific and Industrial Research, India
A Glimpse on the plethora of applications of prodigious material MXene
A Nashim, K Parida
Sustainable Materials and Technologies 32, e00439, 2022
Mandati: Department of Science & Technology, India
Fabrication of NiO/Ta2O5 composite photocatalyst for hydrogen production under visible light
KM Parida, SK Mahanta, S Martha, A Nashim
International journal of energy research 37 (2), 161-170, 2013
Mandati: Council of Scientific and Industrial Research, India
Systematic investigation on the charge storage behavior of GdCrO3 in aqueous electrolyte
A Nashim, S Pany, KM Parida
Journal of Energy Storage 42, 103145, 2021
Mandati: Department of Science & Technology, India
Disponibili pubblicamente: 5
Facile synthesis of highly active gC 3 N 4 for efficient hydrogen production under visible light
S Martha, A Nashim, KM Parida
Journal of Materials Chemistry A 1 (26), 7816-7824, 2013
Mandati: Council of Scientific and Industrial Research, India
n-La 2 Ti 2 O 7/p-LaCrO 3: a novel heterojunction based composite photocatalyst with enhanced photoactivity towards hydrogen production
A Nashim, K Parida
Journal of Materials Chemistry A 2 (43), 18405-18412, 2014
Mandati: Council of Scientific and Industrial Research, India
Heterojunction conception of n-La 2 Ti 2 O 7/p-CuO in the limelight of photocatalytic formation of hydrogen under visible light
A Nashim, S Martha, KM Parida
RSC Advances 4 (28), 14633-14643, 2014
Mandati: Council of Scientific and Industrial Research, India
La2Ti2O7 As Nanometric Electrode Material: An Emerging Candidate For Supercapacitor Performance
A Nashim, S Pany, KM Parida, J Nanda
ChemistrySelect 4 (41), 12037-12042, 2019
Mandati: Department of Science & Technology, India
Effect of synthesis methods on the activity of NiO/Co 3 O 4 as an electrode material for supercapacitor: in the light of X-ray diffraction study
A Nashim, S Pany, K Parida
RSC advances 14 (1), 233-244, 2024
Mandati: Department of Science & Technology, India
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