Li, L. Et Al. 2022. Enabling Renewable Energy Technologies in Harsh Climates with Ultra-Efficient Electro-Thermal Desnowing, Defrosting, and Deicing. Advanced Functional Materials , vol.32 .

Li, L., Khodakarami, S., Yan, X., Fazle Rabbi, K., GÜNAY, A. A., Stillwell, A., ... Miljkovic, N.(2022). Enabling Renewable Energy Technologies in Harsh Climates with Ultra-Efficient Electro-Thermal Desnowing, Defrosting, and Deicing. Advanced Functional Materials , vol.32.

Li, Longnan Et Al. "Enabling Renewable Energy Technologies in Harsh Climates with Ultra-Efficient Electro-Thermal Desnowing, Defrosting, and Deicing," Advanced Functional Materials , vol.32, 2022

Li, Longnan Et Al. "Enabling Renewable Energy Technologies in Harsh Climates with Ultra-Efficient Electro-Thermal Desnowing, Defrosting, and Deicing." Advanced Functional Materials , vol.32, 2022

Li, L. Et Al. (2022) . "Enabling Renewable Energy Technologies in Harsh Climates with Ultra-Efficient Electro-Thermal Desnowing, Defrosting, and Deicing." Advanced Functional Materials , vol.32.

@article{article, author={Longnan Li Et Al. }, title={Enabling Renewable Energy Technologies in Harsh Climates with Ultra-Efficient Electro-Thermal Desnowing, Defrosting, and Deicing}, journal={Advanced Functional Materials}, year=2022}