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Low-solvation electrolytes for high-voltage sodium-ion batteries
Na-ion batteries, Low-solvation electrolytes
Acknowledgement
This work was funded by Vietnam Ntional University Ho Chi Minh City, Grant/Award Number: C2020-18-10
Minh Le Nguyen, Hoang Van Nguyen, Nitika Ghosh, Akhil Garg, Man Van Tran, Phung My Loan Le
Citation
Computational Fluid Dynamics-Based Numerical Analysis for Studying the Effect of Mini-Channel Cooling Plate, Flow Characteristics...
energy storage, lithium-ion battery, battery thermal management system, mini-channel, cooling plate, batteries, electrochemical storage, novel numerical and analytical simulations
Acknowledgement
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Wei Li, Akhil Garg, Ningbo Wang, Liang Gao, My Loan Le Phung, Van Man Tran
Citation
Electrochemical Performance Enhancement of Sodium-Ion Batteries Fabricated With NaNi1/3Mn1/3Co1/3O2 Cathodes Using Support Vector Regression-Simplex Algorithm Approach
green energy, energy conversion, sodium-ion batteries, hybrid energy systems, cleaner production
Acknowledgement
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C. Ruhatiya, Surinder Singh, Ankit Goyal, Xiaodong Niu, Thi Ngoc Hanh Nguyen, Van Hoang Nguyen, Van Man Tran, My Loan Phung LE, Akhil Garg, Liang Gao
Citation
New deep eutectic solvents based on ethylene glycol - LiTFSI and their application as an electrolyte in electrochemical double layer capacitor (EDLC)
• Novel deep eutectic solvent based on LiTFSI and EG was formed at the molar ratio about 1:3. • DES 1:4 exhibiting the highest conductivity value as a potential electrolyte for carbon-based EDLC • Significant enlargement of the operating voltage of supercapacitor (up to 3.0 V vs NHE)
Acknowledgement
This work was funded by Viet Nam National University - Ho Chi Minh City (VNU-HCM) under grant code B2019-18-06.
Kieu T.T. Tran, Linh T.M. Le, An L.B. Phan, Phuong H. Tran, Thanh D. Vo, Tuyen T.T. Truong, Ngoc T.B. Nguyen, Akhil Garg
Citation
Cu-doped NaCu0.05Fe0.45Co0.5O2 as promising cathode material for Na-ion batteries: synthesis and characterization
• High crystallize Cu-doped NaCu0.05Fe0.45Co0.5O2 samples were synthesized using halide and acetate as copper precursors. • The acetate-based precursor (NFCCu-Ac) enables high purity and better performance with the capacity of 130 mAhg−1 and stable cycling over 100 cycles. • Phase structure at high potential and Na+-ion diffusion coefficient of the NFCCu-Ac sample were explored.
Acknowledgement
This work was funded by Vietnam National Foundation for Science and Technology Development (NAFOSTED) under grant number 104.06-2018.359.
Van Hoang Nguyen, Minh Le Nguyen, Hue Phuong Tran, Van Man Tran, Nhan Thanh Tran, My Loan Phung Le
Citation
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