Journal article
Xun Geng, Gurwinder Singh, C.I. Sathish, Zhixuan Li, Rohan Bahadur, Yang Liu, Sean Li, Xiaojiang Yu, Mark Breese, Jiabao Yi, Ajayan Vinu
Carbon, vol. 214, 2023, p. 118347
Carbon, vol. 214, 2023, p. 118347
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Cite
APA
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Geng, X., Singh, G., Sathish, C. I., Li, Z., Bahadur, R., Liu, Y., … Vinu, A. (2023). Biomass derived nanoarchitectonics of porous carbon with tunable oxygen functionalities and hierarchical structures and their superior performance in CO2 adsorption and energy storage. Carbon, 214, 118347. https://doi.org/10.1016/j.carbon.2023.118347
Chicago/Turabian
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Geng, Xun, Gurwinder Singh, C.I. Sathish, Zhixuan Li, Rohan Bahadur, Yang Liu, Sean Li, et al. “Biomass Derived Nanoarchitectonics of Porous Carbon with Tunable Oxygen Functionalities and Hierarchical Structures and Their Superior Performance in CO2 Adsorption and Energy Storage.” Carbon 214 (2023): 118347.
MLA
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Geng, Xun, et al. “Biomass Derived Nanoarchitectonics of Porous Carbon with Tunable Oxygen Functionalities and Hierarchical Structures and Their Superior Performance in CO2 Adsorption and Energy Storage.” Carbon, vol. 214, 2023, p. 118347, doi:10.1016/j.carbon.2023.118347.
BibTeX Click to copy
@article{geng2023a,
title = {Biomass derived nanoarchitectonics of porous carbon with tunable oxygen functionalities and hierarchical structures and their superior performance in CO2 adsorption and energy storage},
year = {2023},
journal = {Carbon},
pages = {118347},
volume = {214},
doi = {10.1016/j.carbon.2023.118347},
author = {Geng, Xun and Singh, Gurwinder and Sathish, C.I. and Li, Zhixuan and Bahadur, Rohan and Liu, Yang and Li, Sean and Yu, Xiaojiang and Breese, Mark and Yi, Jiabao and Vinu, Ajayan}
}