Wang, S. Et Al. 2025. Improved form stability, thermal storage capacity and thermal conductivity of polyurethane based waste sponge carbon/expanded graphite/organic phase change materials coated by Ag nanoparticles. Sustainable Materials and Technologies , vol.43 .

Wang, S., Gu, X., KAR, T., SARI, A., ÇAKIR, E., VAROL, T., ... AKÇAY, S. B.(2025). Improved form stability, thermal storage capacity and thermal conductivity of polyurethane based waste sponge carbon/expanded graphite/organic phase change materials coated by Ag nanoparticles. Sustainable Materials and Technologies , vol.43.

Wang, Shanshan Et Al. "Improved form stability, thermal storage capacity and thermal conductivity of polyurethane based waste sponge carbon/expanded graphite/organic phase change materials coated by Ag nanoparticles," Sustainable Materials and Technologies , vol.43, 2025

Wang, Shanshan Et Al. "Improved form stability, thermal storage capacity and thermal conductivity of polyurethane based waste sponge carbon/expanded graphite/organic phase change materials coated by Ag nanoparticles." Sustainable Materials and Technologies , vol.43, 2025

Wang, S. Et Al. (2025) . "Improved form stability, thermal storage capacity and thermal conductivity of polyurethane based waste sponge carbon/expanded graphite/organic phase change materials coated by Ag nanoparticles." Sustainable Materials and Technologies , vol.43.

@article{article, author={Shanshan Wang Et Al. }, title={Improved form stability, thermal storage capacity and thermal conductivity of polyurethane based waste sponge carbon/expanded graphite/organic phase change materials coated by Ag nanoparticles}, journal={Sustainable Materials and Technologies}, year=2025}