Enhancing SOC accuracy in electric vehicle batteries via trapezoidal integration and capacity degradation compensation. [PDF]
Sci RepKulkarni SV +4 more
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Capacity fade in Sn-C nanopowder anodes due to fracture.
J Power Sources, 2012 Aifantis KE +4 more
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Beyond drive cycles: mapping the intricacies of electric vehicle battery health in diverse environments and driving conditions. [PDF]
RSC AdvMulpuri SK, Sah B, Kumar P.
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High Potential Isoindoline-Based Nitroxides Posolytes for Aqueous Organic Redox Flow Batteries. [PDF]
ChemSusChemBoutamine K +8 more
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A low-redox-potential phenazine-based negolyte with high stability for aqueous organic flow batteries. [PDF]
Chem SciXie X, Kong T, Gao J, Li R, Wang Y.
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Molecular Design and Redox Chemistries for Aqueous Organic Redox Flow Batteries (AORFBs). [PDF]
Angew Chem Int Ed EnglWang P.
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Novel application of differential thermal voltammetry as an in-depth state-of-health diagnosis method for lithium-ion batteries [PDF]
, 2015 Brandon, NP +5 more
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Optimizing charge discharge cycles using QPPONet-enabled hybrid learning framework for energy management and safety in electric vehicles. [PDF]
Sci RepSujan Kumar MV, Khekare G.
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Despite inducing antioxidant regulation, superoxide dismutase deficiency makes <i>Escherichia coli</i> more sensitive to hydrogen peroxide. [PDF]
Front MicrobiolNong Y +6 more
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Design Principles for Air Tolerance in Pyridinium-Based Flow Batteries. [PDF]
Adv MaterCarrington ME, Jónsson E, Grey CP.
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