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Dr. Nagmani

Project Scientist at Department of Sustainable Energy Engineering, Indian Institute of Technology Kanpur. Ph.D. from School of Energy Science and Engineering, Indian Institute of Technology Kharagpur

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Advanced Characterization Techniques for Insights into the Sodium Storage Mechanism of Hard Carbon Anodes: Recent Advances and Future Perspectives

Posted by Poonam Sinha on September 21, 2024

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Breakthrough in Sodium-Ion Battery Technology: Unmodified Hard Carbon Anode with High Capacity of 422 mAh/g and Energy Density Unveiled

Posted by Poonam Sinha on April 11, 2024

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Nagmani received International Travel Award from Science and Engineering Research Board, Government of India to present his scientific work at the Prestigious Electrochemical Society Meeting, Gothenburg Sweden.

Posted by Poonam Sinha on October 04, 2023

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Utilization of PET derived hard carbon as a battery-type, higher plateau capacity anode for sodium-ion and potassium-ion batteries

Posted by Poonam Sinha on September 27, 2023

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Effect of pore morphology on the enhanced potassium storage in hard carbon derived from polyvinyl chloride for K-ion batteries

Posted by Poonam Sinha on August 06, 2023

Battery energy materials Energy Technology Potassium-ion Battery

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Utilization of Single Biomass-derived Micro-Mesoporous Carbon for Dual-Carbon Symmetric and Hybrid Sodium-ion Capacitors

Posted by Poonam Sinha on June 09, 2023

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Low-cost and sustainable micro/mesoporous hard carbon derived from Jute-waste for promising high-performance Sodium and Potassium-ion batteries with distinct storage mechanism

Posted by Poonam Sinha on December 11, 2022

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Are Na-ion batteries nearing the energy storage tipping point? – Current status of non-aqueous, aqueous, and solid-sate Na-ion battery technologies for sustainable energy storage

Posted by Poonam Sinha on November 03, 2022

admissions Battery Conference Energy Fuels energy materials Energy Technology Green Energy Nanoscience and Nanotechnology New Research Sodium-Ion Battery

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Posted by Poonam Sinha on June 26, 2022

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Optimizing ultramicroporous hard carbon spheres in carbonate ester-based electrolytes for enhanced sodium storage in half-/full-cell sodium-ion batteries

Posted by Poonam Sinha on June 23, 2022

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Enhanced Performance of Ultra-Microporous Hard Carbon Spheres as Anode in Half /Full Cells for Sodium-ion Batteries through Optimized Carbonate Ester Electrolytes

Posted by Poonam Sinha on May 25, 2022

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Lithium-Ion Battery Technologies for Electric Mobility – State-of-the-Art Scenario

Posted by Poonam Sinha on May 25, 2022

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Opportunities in Na/K [Hexacyanoferrate] Frameworks for Sustainable Non-aqueous Na+/K+ batteries

Posted by Poonam Sinha on December 09, 2021

Battery energy materials Energy Technology Potassium-ion Battery Sodium-Ion Battery

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Insights into the Diverse Precursor based Micro-Spherical Hard Carbons as Anode material for Sodium-ion and Potassium-ion Batteries

Posted by Poonam Sinha on December 07, 2021

Battery energy materials Energy Technology Green Energy New Research Potassium-ion Battery Sodium-Ion Battery

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Navomesh Stavya: An Innovation Start-up Company from Bihar (India) for E-Mobility

Posted by Poonam Sinha on December 03, 2021

Battery Energy Fuels energy materials Energy Technology Green Energy New Research

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Convocation: Gold Medalist with Hon'ble President of India

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Popular Posts

The Future of mobility is Electric (e-Mobility) for sustainable eco-system: Sodium-Ion Battery ( A Technology Beyond Lithium-Ion Battery)

Introduction to electric mobility – Battery on wheels Electric mobility in the 21 st century by Nagmani Transportation and vehicular mobility have been significant aspects of modern civilization, ensuring connectivity and facilitating socio-economical development. The majority of automobiles on the road today run with conventional fossil fuels like gasoline and diesel . In an Internal Combustion Engine (ICE), incomplete combustion results in greenhouse gas (GHG) emissions contributing to 25% of the total GHG emissions worldwide. As the global consensus grew, green and sustainable alternatives emerged towards the electrification of transportation sectors worldwide. However, electric vehicles (EVs) are historically older technologies as compared to ICE-based automobiles. 1 Battery-powered cars first appeared in the early 1800s, followed by electrified locomotives in the 1830s. 2 Patents were granted in England and America in 1840 and 1847 to use electrified rails. 3 ...

Effect of pore morphology on the enhanced potassium storage in hard carbon derived from polyvinyl chloride for K-ion batteries

E lectrochimica Acta : (IF = 6.6 ); Publication Date: 20 July 2023 DOI: https://doi.org/10.1016/j.electacta.2023.142903 Author(s): Nagmani , A Tyagi. P Verma, and Sreeraj Puravankara Abstract Potassium-ion batteries (PIBs), with a bigger shuttling cation ( K + ), compete with Lithium-ion batteries (LIBs) for future energy storage due to the higher mobility of the solvated ions and lesser desolvation energy during energy storage. Developing stable anode material with excellent battery metrics is challenging in PIBs. Graphite, a promising anode for PIBs, faces poor structural stability from massive volume expansion of 61% during intercalation. The hard carbons (HCs) with a pseudo graphitic domain with rich pores and defects can accommodate more potassium ions without significant structural degradation. In this work, we upcycled the polyvinylidene chloride (PVC) to synthesize low-cost, green, and sust...

Lithium-Ion Battery Technologies for Electric Mobility – State-of-the-Art Scenario

ARAI Journal of Mobility Technology ; Accepted Date: May 13, 2021 Perspectives DOI: https://doi.org/10.37285/ajmt.1.2.10 Author(s): Nagmani , Debanjana Pahari, Ashwani Tyagi, Sreeraj Puravankara Abstract:

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