Singh, P. Et Al. 2023. Expanded waste glass/methyl palmitate/carbon nanofibers as effective shape stabilized and thermal enhanced composite phase change material for thermal energy storage. JOURNAL OF ENERGY STORAGE , vol.64 .

Singh, P., Sharma, R., HEKİMOĞLU, G., SARI, A., Gencel, O., & Tyagi, V., (2023). Expanded waste glass/methyl palmitate/carbon nanofibers as effective shape stabilized and thermal enhanced composite phase change material for thermal energy storage. JOURNAL OF ENERGY STORAGE , vol.64.

Singh, P. Et Al. "Expanded waste glass/methyl palmitate/carbon nanofibers as effective shape stabilized and thermal enhanced composite phase change material for thermal energy storage," JOURNAL OF ENERGY STORAGE , vol.64, 2023

Singh, P. Et Al. "Expanded waste glass/methyl palmitate/carbon nanofibers as effective shape stabilized and thermal enhanced composite phase change material for thermal energy storage." JOURNAL OF ENERGY STORAGE , vol.64, 2023

Singh, P. Et Al. (2023) . "Expanded waste glass/methyl palmitate/carbon nanofibers as effective shape stabilized and thermal enhanced composite phase change material for thermal energy storage." JOURNAL OF ENERGY STORAGE , vol.64.

@article{article, author={P. Singh Et Al. }, title={Expanded waste glass/methyl palmitate/carbon nanofibers as effective shape stabilized and thermal enhanced composite phase change material for thermal energy storage}, journal={JOURNAL OF ENERGY STORAGE}, year=2023}