senguttuvan premkumar
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Na2Ti3O7: Lowest Voltage Ever Reported Oxide Insertion Electrode for Sodium Ion Batteries
P Senguttuvan, G Rousse, V Seznec, JM Tarascon, MR Palacin
Chemistry of Materials 23 (18), 4109-4111, 2011
A High Power Rechargeable Nonaqueous Multivalent Zn/V2O5 Battery.
P Senguttuvan, SD Han, S Kim, AL Lipson, S Tepavcevic, TT Fister, ...
Advanced Energy Materials 6 (24), 2016
Low-potential sodium insertion in a NASICON-type structure through the Ti (III)/Ti (II) redox couple
P Senguttuvan, G Rousse, ME Arroyo Y De Dompablo, H Vezin, ...
Journal of the American Chemical Society 135 (10), 3897-3903, 2013
Rationalization of Intercalation Potential and Redox Mechanism for A2Ti3O7 (A = Li, Na)
G Rousse, ME Arroyo-de Dompablo, P Senguttuvan, A Ponrouch, ...
Chemistry of Materials 25 (24), 4946-4956, 2013
High Capacity and High‐Rate NASICON‐Na3.75V1.25Mn0.75(PO4)3 Cathode for Na‐Ion Batteries via Modulating Electronic and Crystal Structures
S Ghosh, N Barman, M Mazumder, SK Pati, G Rousse, P Senguttuvan
Advanced Energy Materials 10 (6), 1902918, 2020
Impact of Mg2+ and Al3+ Substitutions on the Structural and Electrochemical Properties of NASICON‐NaxVMn0.75M0.25(PO4)3 (M = Mg and Al) Cathodes …
S Ghosh, N Barman, P Senguttuvan
Small 16 (45), 2003973, 2020
Taking steps forward in understanding the electrochemical behavior of Na 2 Ti 3 O 7
J Nava-Avendaño, A Morales-García, A Ponrouch, G Rousse, C Frontera, ...
Journal of Materials Chemistry A 3 (44), 22280-22286, 2015
Titanium (III) sulfate as new negative electrode for sodium-ion batteries
P Senguttuvan, G Rousse, H Vezin, JM Tarascon, MR Palacín
Chemistry of Materials 25 (12), 2391-2393, 2013
Liquid Ammonia Chemical Lithiation: An Approach for High-Energy and High-Voltage Si–Graphite|Li1+xNi0.5Mn1.5O4 Li-Ion Batteries
WM Dose, J Blauwkamp, MJ Piernas-Muñoz, I Bloom, X Rui, RF Klie, ...
ACS Applied Energy Materials 2 (7), 5019-5028, 2019
Formation of MgO during chemical magnesiation of Mg-Ion battery materials
H Wang, P Senguttuvan, DL Proffit, B Pan, C Liao, AK Burrell, JT Vaughey, ...
ECS Electrochemistry Letters 4 (8), A90, 2015
A low temperature TiP 2 O 7 polymorph exhibiting reversible insertion of lithium and sodium ions
P Senguttuvan, G Rousse, J Oró-Solé, JM Tarascon, MR Palacín
Journal of Materials Chemistry A 1 (48), 15284-15291, 2013
Elucidating the Impact of Mg Substitution on the Properties of NASICON‐Na3+yV2−yMgy(PO4)3 Cathodes
S Ghosh, N Barman, E Gonzalez‐Correa, M Mazumder, A Zaveri, ...
Advanced Functional Materials 31 (48), 2105463, 2021
G. l. Rousse, V. Seznec, J.-M. Tarascon and MR Palacín
P Senguttuvan
Chem. Mater 23, 4109, 2011
Two for one: propylene carbonate co-solvent for high performance aqueous zinc-ion batteries–remedies for persistent issues at both electrodes
B Kakoty, R Vengarathody, S Mukherji, V Ahuja, A Joseph, C Narayana, ...
Journal of Materials Chemistry A 10 (23), 12597-12607, 2022
Ultra-stable Sb/hard carbon composite anodes with synergistic alkali-ion storage performances
V Ahuja, B Senthilkumar, P Senguttuvan
Materials Research Bulletin 144, 111491, 2021
Topochemical bottom-up synthesis of 2d-and 3d-sodium iron fluoride frameworks
UK Dey, N Barman, S Ghosh, S Sarkar, SC Peter, P Senguttuvan
Chemistry of Materials 31 (2), 295-299, 2019
Unveiling a high capacity multi-redox (Nb 5+/Nb 4+/Nb 3+) NASICON-Nb 2 (PO 4) 3 anode for Li-and Na-ion batteries
B Patra, K Kumar, D Deb, S Ghosh, GS Gautam, P Senguttuvan
Journal of Materials Chemistry A 11 (15), 8173-8183, 2023
Chemical pressure-stabilized post spinel-NaMnSnO4 as potential cathode for sodium-ion batteries
A Chiring, P Senguttuvan
Bulletin of Materials Science 43 (1), 306, 2020
Unraveling the formation mechanism of NaCoPO4 polymorphs
A Chiring, M Mazumder, SK Pati, CS Johnson, P Senguttuvan
Journal of Solid State Chemistry 293, 121766, 2021
Active substance for electrode for a sodium ion battery
P Senguttuvan, RM Palacin, JM Tarascon
US Patent 9,331,333, 2016
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