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S Pratheep Kumar
S Pratheep Kumar
VIT-AP University
Verified email at vitap.ac.in
Title
Cited by
Cited by
Year
Flame retardancy of clay–sodium silicate composite coatings on wood for construction purposes
SP Kumar, S Takamori, H Araki, S Kuroda
RSC Advances 5 (43), 34109-34116, 2015
652015
Synthesis of apatite phosphates containing Cs+, Sr2+ and RE3+ ions and chemical durability studies
SP Kumar, G Buvaneswari
Materials Research Bulletin 48 (2), 324-332, 2013
382013
Simulated monazite crystalline wasteform La0. 4Nd0. 1Y0. 1Gd0. 1Sm0. 1Ce0. 1Ca0. 1 (P0. 9Mo0. 1O4): synthesis, phase stability and chemical durability study
SP Kumar, B Gopal
Journal of Nuclear Materials 458, 224-232, 2015
252015
Synthesis and leachability study of a new cesium immobilized langbeinite phosphate: KCsFeZrP3O12
SP Kumar, B Gopal
Journal of alloys and compounds 615, 419-423, 2014
252014
New rare earth langbeinite phosphosilicates KBaREEZrP2SiO12 (REE: La, Nd, Sm, Eu, Gd, Dy) for lanthanide comprising nuclear waste storage
SP Kumar, B Gopal
Journal of Alloys and Compounds 657, 422-429, 2016
202016
Langbeinite Phosphates KPbM2(PO4)3 (M = Cr, Fe): Synthesis, Structure, Thermal Expansion, and Magnetic Properties Investigation
D Balaji, TR Mandlimath, J Chen, Y Matsushita, SP Kumar
Inorganic Chemistry 59 (18), 13245-13253, 2020
182020
Encapsulation of heterovalent ions of two simulated high-level nuclear wastes and crystallization into single-phase NZP-based wasteforms
S Pratheep Kumar, G Buvaneswari, R Raja Madhavan, ...
Radiochemistry 53, 421-429, 2011
182011
Immobilization of “Mo6+” in Monazite Lattice: Synthesis and Characterization of New Phosphomolybdates, La1−xCaxP1−yMoyO4, Where x=y=0.1–0.9
S Pratheep Kumar, B Gopal
Journal of the American Ceramic Society 94 (4), 1008-1013, 2011
142011
Influence of tin substitution on negative thermal expansion of K2Zr2-xSnxP2SiO12 (x= 0-2) phosphosilicates ceramics
D Balaji, TR Mandlimath, SP Kumar
Ceramics International 46 (9), 13877-13885, 2020
122020
Synthesis, structural and thermal expansion investigation of La, Ce and Eu substituted Bi4 (SiO4) 3
TR Mandlimath, D Balaji, SP Kumar
Materials Chemistry and Physics 270, 124841, 2021
102021
Langbeinite phosphosilicates K2-xCsxZr2P2SiO12 (x= 0, 0.5, 1.0, 1.5, 2.0) for cesium encapsulation; synthesis, chemical durability and thermal expansion study
D Balaji, SP Kumar
Ceramics International 47 (20), 28951-28959, 2021
82021
Bi 0.33 Zr 2 (PO 4) 3, a negative thermal expansion material with a Nasicon-type structure
D Balaji, SP Kumar
Dalton Transactions 51 (45), 17310-17318, 2022
22022
Characterization of flexible ceramics
SP Kumar, D Balaji, TR Mandlimath
Advanced Flexible Ceramics, 25-43, 2023
12023
Inorganic geochemistry
SP Kumar, TR Mandlimath, M Ramesh
Geochemistry: Concepts and Applications, 149-160, 2021
12021
Thermal expansion investigation of new langbeinite type phosphomolybdates: K2-xZr2P2-xMoxSiO12 (x= 0, 0.1, 0.2)
D Balaji, SP Kumar
Materials Today: Proceedings 94, 19-23, 2023
2023
Flexible ceramics for environmental remediation
TR Mandlimath, K Valsalan, SP Kumar
Advanced Flexible Ceramics, 411-424, 2023
2023
Effect of Synthetic Routes on the Catalytic Activity of FePO4 for p-Nitrophenol Reduction
TR Mandlimath, SP Kumar
Kinetics and Catalysis 62, 536-544, 2021
2021
Introduction and Scope of Geochemistry
TR Mandlimath, SP Kumar, M Ramesh
Geochemistry: Concepts and Applications, 161-178, 2021
2021
Immobilization of'Mo.
SP Kumar, B Gopal
Journal of the American Ceramic Society 94 (4), 2011
2011
Synthesis, characterization and leachability studies of simulated high level nuclear waste load NZP phases
S Pratheep Kumar, G Bhuvaneshwari, KV Govindan Kutty
2006
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Articles 1–20