Nonintrusive thermal-wave sensor for operando quantification of degradation in commercial batteries
Y. Zeng, et al., “Nonintrusive thermal-wave sensor for operando quantification of degradation in commercial batteries,” Nature Communications 14 8203 (2023).
Extreme fast charging of commercial Li-ion batteries via combined thermal switching and self-heating approaches
Y. Zeng, B. Zhang, Y. Fu, F. Shen, Q. Zheng, D. Chalise, R. Miao, S. Kaur, S. D. Lubner, M. Tucker, V. Battaglia, C. Dames, and R. S. Prasher, “Extreme fast charging of commercial Li-ion batteries via combined thermal switching and self-heating approaches,” Nature Communications 14 3229 (2023).
Noninvasive accurate time resolved inverse battery calorimetry
D. Chalise, A. Saxon, Y. Zeng, V. Srinivasan, S. D. Lubner, M. Keyser, and R. S. Prasher, “Noninvasive accurate time resolved inverse battery calorimetry,” Energy Storage Materials 60 102810 (2023).
Using Thermal Interface Resistance for Noninvasive Operando Mapping of Buried Interfacial Lithium Morphology in Solid-State Batteries
D. Chalise, R. Jonson, J, Schaadt, P, Barai, Y. Zeng, S. Kaur, S. D. Lubner, V. Srinivasan, M. Tucker, and R. S. Prasher, “Using Thermal Interface Resistance for Noninvasive Operando Mapping of Buried Interfacial Lithium Morphology in Solid-State Batteries,” ACS Applied Materials & Interfaces 15, 13 (2023).