Ma, Y. Et Al. 2022. Energy and daylighting performance of a building containing an innovative glazing window with solid-solid phase change material and silica aerogel integration. ENERGY CONVERSION AND MANAGEMENT , vol.271 .

Ma, Y., Li, D., Yang, R., Zhang, S., Arici, M., Liu, C., ... Zhang, C.(2022). Energy and daylighting performance of a building containing an innovative glazing window with solid-solid phase change material and silica aerogel integration. ENERGY CONVERSION AND MANAGEMENT , vol.271.

Ma, Yuxin Et Al. "Energy and daylighting performance of a building containing an innovative glazing window with solid-solid phase change material and silica aerogel integration," ENERGY CONVERSION AND MANAGEMENT , vol.271, 2022

Ma, Yuxin Et Al. "Energy and daylighting performance of a building containing an innovative glazing window with solid-solid phase change material and silica aerogel integration." ENERGY CONVERSION AND MANAGEMENT , vol.271, 2022

Ma, Y. Et Al. (2022) . "Energy and daylighting performance of a building containing an innovative glazing window with solid-solid phase change material and silica aerogel integration." ENERGY CONVERSION AND MANAGEMENT , vol.271.

@article{article, author={Yuxin Ma Et Al. }, title={Energy and daylighting performance of a building containing an innovative glazing window with solid-solid phase change material and silica aerogel integration}, journal={ENERGY CONVERSION AND MANAGEMENT}, year=2022}