D. ŞEYDA Et Al. , "Bismuth-Tin Core–Shell Particles From Liquid Metals: A Novel, Highly Efficient Photothermal Material that Combines Broadband Light Absorption with Effective Light-to-Heat Conversion," Advanced Science , vol.11, no.45, 2024
ŞEYDA, D. Et Al. 2024. Bismuth-Tin Core–Shell Particles From Liquid Metals: A Novel, Highly Efficient Photothermal Material that Combines Broadband Light Absorption with Effective Light-to-Heat Conversion. Advanced Science , vol.11, no.45 .
ŞEYDA, D., Dincer, O., İnce, D., Cugunlular, M., ÜNALAN, H. E., & ÇINAR AYGÜN, S., (2024). Bismuth-Tin Core–Shell Particles From Liquid Metals: A Novel, Highly Efficient Photothermal Material that Combines Broadband Light Absorption with Effective Light-to-Heat Conversion. Advanced Science , vol.11, no.45.
ŞEYDA, DOĞU Et Al. "Bismuth-Tin Core–Shell Particles From Liquid Metals: A Novel, Highly Efficient Photothermal Material that Combines Broadband Light Absorption with Effective Light-to-Heat Conversion," Advanced Science , vol.11, no.45, 2024
ŞEYDA, DOĞU Et Al. "Bismuth-Tin Core–Shell Particles From Liquid Metals: A Novel, Highly Efficient Photothermal Material that Combines Broadband Light Absorption with Effective Light-to-Heat Conversion." Advanced Science , vol.11, no.45, 2024
ŞEYDA, D. Et Al. (2024) . "Bismuth-Tin Core–Shell Particles From Liquid Metals: A Novel, Highly Efficient Photothermal Material that Combines Broadband Light Absorption with Effective Light-to-Heat Conversion." Advanced Science , vol.11, no.45.
@article{article, author={DOĞU ŞEYDA Et Al. }, title={Bismuth-Tin Core–Shell Particles From Liquid Metals: A Novel, Highly Efficient Photothermal Material that Combines Broadband Light Absorption with Effective Light-to-Heat Conversion}, journal={Advanced Science}, year=2024}