Siluvai Michael M.
Siluvai Michael M.
Asssociate Professor, SSN College of Engineering
Verified email at ssn.edu.in
Title
Cited by
Cited by
Year
Enhanced lithium ion transport in PEO-based solid polymer electrolytes employing a novel class of plasticizers
MS Michael, MME Jacob, SRS Prabaharan, S Radhakrishna
Solid State Ionics 98 (3-4), 167-174, 1997
3301997
Novel low-temperature synthesis and characterization ofLiNiVO4 forhigh-voltage Li ion batteries
SRS Prabaharan, MS Michael, S Radhakrishna, C Julien
Journal of Materials Chemistry 7 (9), 1791-1796, 1997
1071997
Structural and electrochemical properties of LiNi0. 3Co0. 7O2 synthesized by different low-temperature techniques
C Julien, SS Michael, S Ziolkiewicz
International Journal of Inorganic Materials 1 (1), 29-37, 1999
901999
High voltage electrochemical double layer capacitors using conductive carbons as additives
MS Michael, SRS Prabaharan
Journal of power sources 136 (2), 250-256, 2004
742004
Bulk synthesis of submicrometre powders of LiMn2O4 for secondary lithium batteries
S Prabaharan, M Siluvai Michael, P T KUMAR, A Mani, ...
Journal of material chemistry 5 (7), 1035-1037, 1995
631995
Soft-chemistry synthesis of electrochemically-active spinel LiMn2O4 for Li-ion batteries
SRS Prabaharan, NB Saparil, SS Michael, M Massot, C Julien
Solid State Ionics 112 (1-2), 25-34, 1998
571998
Li2NiTiO4—a new positive electrode for lithium batteries: soft-chemistry synthesis and electrochemical characterization
SRS Prabaharan, MS Michael, H Ikuta, Y Uchimoto, M Wakihara
Solid State Ionics 172 (1-4), 39-45, 2004
482004
Synthesis of a polyanion cathode material, Li2Co2 (MoO4) 3, and its electrochemical properties for lithium batteries
SRS Prabaharan, MS Michael, KM Begam
Electrochemical and Solid State Letters 7 (11), A416, 2004
372004
Rechargeable lithium battery employing a new ambient temperature hybrid polymer electrolyte based on PVK+ PVdF–HFP (copolymer)
MS Michael, SRS Prabaharan
Journal of power sources 136 (2), 408-415, 2004
372004
New Lithiated NASICON-Type Li2Ni2 (MoO4) 3 for Rechargeable Lithium Batteries: Synthesis, Structural, and Electrochemical Properties
KM Begam, MS Michael, YH Taufiq-Yap, SRS Prabaharan
Electrochemical and Solid State Letters 7 (8), A242, 2004
362004
A review on advancement in non-noble metal based oxides as bifunctional catalysts for rechargeable non-aqueous Li/air battery
K Surya, MS Michael, SRS Prabaharan
Solid State Ionics 317, 89-96, 2018
342018
Synthesis and electrochemistry of LiMn2O4 prepared using succinic acid as complexing agent
SRS Prabaharan, SS Michael, C Julien
International Journal of Inorganic Materials 1 (1), 21-27, 1999
331999
Soft-combustion (wet-chemical) synthesis of a new 4-V class cathode-active material, LiVMoO6, for Li-ion batteries
MS Michael, A Fauzi, SRS Prabaharan
International Journal of Inorganic Materials 2 (2-3), 261-267, 2000
322000
Characterization of soft-combustion-derived NASICON-type Li2Co2 (MoO4) 3 for lithium batteries
SRS Prabaharan, S Ramesh, MS Michael, KM Begam
Materials chemistry and physics 87 (2-3), 318-326, 2004
302004
New NASICON-type Li2Ni2 (MoO4) 3 as a positive electrode material for rechargeable lithium batteries
SRS Prabaharan, A Fauzi, MS Michael, KM Begam
Solid State Ionics 171 (3-4), 157-165, 2004
272004
Synthesis and redox behavior of a new polyanion compound, Li2Co2(MoO4)3, as 4 V class positive electrode material for lithium batteries
KM Begam, S Selladurai, MS Michael, SRS Prabaharan
Ionics 10 (1-2), 77-83, 2004
232004
Synthesis and redox properties of LixNi2 (MoO4) 3: a new 3-V class positive electrode material for rechargeable lithium batteries
SRS Prabaharan, MS Michael, S Ramesh, KM Begam
Journal of Electroanalytical Chemistry 570 (1), 107-112, 2004
222004
Effect of dispersion of CeO2 in the ionic conductivity of Li2MnCl4
MME Jacob, S Rajendran, R Gangadharan, MS Michael, ...
Solid State Ionics 86, 595-602, 1996
221996
High powered hybrid supercapacitor with microporous activated carbon
KS Kesavan, K Surya, MS Michael
Solid State Ionics 321, 15-22, 2018
182018
Optimization of synthesis condition and the electrochemical properties of LiVMO6− δ (M= Mo or W) as candidate positive electrode material for lithium batteries
SRS Prabaharan, KM Begam, TY Tou, MS Michael
Solid State Ionics 152, 91-97, 2002
172002
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