W. Sun Et Al. , "Investigation of the thermal conductivity enhancement mechanism of polymer composites with carbon-based fillers by scanning thermal microscopy," AIP ADVANCES , vol.12, no.10, 2022
Sun, W. Et Al. 2022. Investigation of the thermal conductivity enhancement mechanism of polymer composites with carbon-based fillers by scanning thermal microscopy. AIP ADVANCES , vol.12, no.10 .
Sun, W., Hamaoui, G., Micusik, M., EVGİN, T., Vykydalova, A., Omastova, M., ... Gomes, S.(2022). Investigation of the thermal conductivity enhancement mechanism of polymer composites with carbon-based fillers by scanning thermal microscopy. AIP ADVANCES , vol.12, no.10.
Sun, Wenxiang Et Al. "Investigation of the thermal conductivity enhancement mechanism of polymer composites with carbon-based fillers by scanning thermal microscopy," AIP ADVANCES , vol.12, no.10, 2022
Sun, Wenxiang Et Al. "Investigation of the thermal conductivity enhancement mechanism of polymer composites with carbon-based fillers by scanning thermal microscopy." AIP ADVANCES , vol.12, no.10, 2022
Sun, W. Et Al. (2022) . "Investigation of the thermal conductivity enhancement mechanism of polymer composites with carbon-based fillers by scanning thermal microscopy." AIP ADVANCES , vol.12, no.10.
@article{article, author={Wenxiang Sun Et Al. }, title={Investigation of the thermal conductivity enhancement mechanism of polymer composites with carbon-based fillers by scanning thermal microscopy}, journal={AIP ADVANCES}, year=2022}