A Cu/Ni alloy thin-film sensor integrated with current collector for in-situ monitoring of lithium-ion battery internal temperature by high-throughput selecting method

“…Thin-film RTD (TFRTD) sensors, specifically copper-nickel alloy sensors, have been noted for their ability to be integrated into current collectors, providing fast and accurate internal temperature measurement. These sensors exhibit 82% faster response speeds and 33% higher accuracy compared to external RTDs, which is crucial to avoid overheating and TR [68]. In external short-circuit detection, non-contact magnetoelectric composite sensors, which combine piezoelectric elastomers and magnetostrictive ferrite, have shown high current sensitivity, with an accuracy greater than 99% and a current sensitivity of 0.346-5.975 mV/A.…”

Recent Advances in Thermal Management Strategies for Lithium-Ion Batteries: A Comprehensive Review

“…Thin-film RTD (TFRTD) sensors, specifically copper-nickel alloy sensors, have been noted for their ability to be integrated into current collectors, providing fast and accurate internal temperature measurement. These sensors exhibit 82% faster response speeds and 33% higher accuracy compared to external RTDs, which is crucial to avoid overheating and TR [68]. In external short-circuit detection, non-contact magnetoelectric composite sensors, which combine piezoelectric elastomers and magnetostrictive ferrite, have shown high current sensitivity, with an accuracy greater than 99% and a current sensitivity of 0.346-5.975 mV/A.…”

Recent Advances in Thermal Management Strategies for Lithium-Ion Batteries: A Comprehensive Review

“…Both external (battery management system, pressure/temperature sensors, thermal insulations) and internal methods can be used to ensure battery safety [ [10] , [11] , [12] , [13] , [14] ]. However, external methods can increase the cost, and weight of the battery bed, leading to decreased performance, especially in challenging environments like those encountered by EVs.…”

Thermal stability analysis of nitrile additives in LiFSI for lithium-ion batteries: An accelerating rate calorimetry study

Estimation of the representative temperatures of a typical electrochemical battery cell when cooling under natural convection conditions