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K Sumala Patnaik
K Sumala Patnaik
Student, Japan Advanced Institute of Science and Technology
在 jaist.ac.jp 的电子邮件经过验证
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Extremely fast charging lithium-ion battery using bio-based polymer-derived heavily nitrogen doped carbon
KS Patnaik, R Badam, Y Peng, K Higashimine, T Kaneko, N Matsumi
Chemical Communications 57 (100), 13704-13707, 2021
232021
Energy Efficient and Fast Charging Nitrogen Doped Carbon Anodes Derived from BIAN‐melamine Based Porous Organic Polymer for Lithium‐ion Batteries
BS Mantripragada, MKS Patnaik, K Higashimine, R Badam, N Matsumi
Batteries & Supercaps 7 (4), e202300515, 2024
52024
POP based nitrogen containing anodic materials for high capacity and fast Charge-Discharge applications in LIB
BS Mantripragada, KS Patnaik, K Higashimine, R Badam, N Matsumi
Electrochemistry Communications 157, 107616, 2023
52023
Bio-based poly (benzimidazole-co-amide)-derived N, O co-doped carbons as fast-charging anodes for lithium-ion batteries
KS Patnaik, BS Mantripragada, R Badam, K Higashimine, X Zhong, ...
Nanoscale Advances 6 (20), 5181-5192, 2024
22024
CoFe2O4 Nanoparticles on Bio-Based Polymer Derived Nitrogen Doped Carbon as Bifunctional Electrocatalyst for Li-Air Battery
P Arkasalerks, A Patra, KS Patnaik, K Higashimine, N Matsumi
Journal of The Electrochemical Society 171 (8), 080538, 2024
12024
Exploiting innate porosity and surface area of conjugated porous polymer to derive N, S Co-doped hierarchical micro/mesoporous carbon with improved lithium/sodium ion storage
S Punyasloka, KS Patnaik, K Higashimine, N Matsumi
Electrochimica Acta 513, 145578, 2025
2025
Advancing lithium-ion battery performance with heteroatom-based anode architectures for fast charging and high capacity
KS Patnaik, BS Mantripragada, S Punyasloka, N Matsumi
Chemical Communications, 2025
2025
Bio-Derived Lithium-Ion Battery Anode Material for Fast Charging and Long-Cycle Life
K Patnaik, Y Peng, R Badam, T Kaneko, N Matsumi
Electrochemical Society Meeting Abstracts 239, 167-167, 2021
2021
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