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S K Samdarshi
S K Samdarshi
Department of Energy Engineering, Central University of Jharkhand, Ranchi, Jharkhand(India)
Verified email at cuj.ac.in
Title
Cited by
Cited by
Year
Cobalt-doped zincblende–wurtzite mixed-phase ZnO photocatalyst nanoparticles with high activity in visible spectrum
BM Rajbongshi, SK Samdarshi
Applied Catalysis B: Environmental 144, 435-441, 2014
1332014
Nickel oxide nanoparticles: a novel antioxidant
JP Saikia, S Paul, BK Konwar, SK Samdarshi
Colloids and Surfaces B: Biointerfaces 78 (1), 146-148, 2010
1332010
A novel thermophotocatalyst of mixed-phase cerium oxide (CeO2/Ce2O3) homocomposite nanostructure: Role of interface and oxygen vacancies
R Verma, SK Samdarshi, S Bojja, S Paul, B Choudhury
Solar Energy Materials and Solar Cells 141, 414-422, 2015
1302015
High UV/visible light activity of mixed phase titania: a generic mechanism
RG Nair, S Paul, SK Samdarshi
Solar Energy Materials and Solar Cells 95 (7), 1901-1907, 2011
1252011
A green precursor for carbon nanotube synthesis
S Paul, SK Samdarshi
New Carbon Materials 26 (2), 85-88, 2011
1092011
Influence of N-doping on photocatalytic activity of ZnO nanoparticles under visible light irradiation
BM Rajbongshi, A Ramchiary, SK Samdarshi
Materials Letters 134, 111-114, 2014
1072014
A review of the thermal performance parameters of box type solar cookers and identification of their correlations
PJ Lahkar, SK Samdarshi
Renewable and Sustainable Energy Reviews 14 (6), 1615-1621, 2010
952010
Photocatalytic activity of ZnO nanopowders synthesized by DC thermal plasma
M Nirmala, MG Nair, K Rekha, A Anukaliani, S Samdarshi, RG Nair
Afr. J. Basic Appl. Sci 2 (5-6), 161-166, 2010
892010
Investigation of antioxidant property of iron oxide particlesby 1′-1′ diphenylpicryl-hydrazyle (DPPH) method
S Paul, JP Saikia, SK Samdarshi, BK Konwar
Journal of Magnetism and Magnetic Materials 321 (21), 3621-3623, 2009
872009
In Situ Decorated Optimized CeO2 on Reduced Graphene Oxide with Enhanced Adsorptivity and Visible Light Photocatalytic Stability and Reusability
R Verma, SK Samdarshi
The Journal of Physical Chemistry C 120 (39), 22281-22290, 2016
822016
An improved technique for computing the top heat loss factor of a flat-plate collector with a single glazing
SK Samdarshi
Trans of ASME-Journal of solar energy engineering 110, 263, 1988
73*1988
ZnO and Co-ZnO nanorods—Complementary role of oxygen vacancy in photocatalytic activity of under UV and visible radiation flux
BM Rajbongshi, SK Samdarshi
Materials Science and Engineering: B 182, 21-28, 2014
702014
Correlating oxygen vacancies and phase ratio/interface with efficient photocatalytic activity in mixed phase TiO2
R Verma, SK Samdarshi
Journal of Alloys and Compounds 629, 105-112, 2015
612015
Analytical Equation for Top Heat Loss Factor of a Flat Plate Collector With Double Glazing
SK Samdarshi, SC Mullick
Trans of ASME -Journal of solar energy engineering 113, 117, 1991
581991
Ag deposited mixed phase titania visible light photocatalyst–Superiority of Ag-titania and mixed phase titania co-junction
A Ramchiary, SK Samdarshi
Applied Surface Science 305, 33-39, 2014
532014
Experimental determination of the thermal performance of a solar box cooker with a modified cooking pot
AA Sagade, SK Samdarshi, PJ Lahkar, NA Sagade
Renewable energy 150, 1001-1009, 2020
502020
Experimental determination of effective concentration ratio for solar box cookers using thermal tests
AA Sagade, SK Samdarshi, PS Panja
Solar Energy 159, 984-991, 2018
482018
Optimum size of non-convective zone for improved thermal performance of salt gradient solar pond
M Husain, PS Patil, SR Patil, SK Samdarshi
Solar energy 74 (5), 429-436, 2003
482003
Enabling inter-cooker thermal performance comparison based on cooker opto-thermal ratio (COR)
PJ Lahkar, RK Bhamu, SK Samdarshi
Applied energy 99, 491-495, 2012
472012
Hexagonal Ceria Located at the Interface of Anatase/Rutile TiO2 Superstructure Optimized for High Activity under Combined UV and Visible-Light Irradiation
R Verma, SK Samdarshi, J Singh
The Journal of Physical Chemistry C 119 (42), 23899-23909, 2015
452015
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Articles 1–20