BCN nanostructures conjugated nanoporous carbon with oxygenated surface and high specific surface area for enhanced CO2 capture and supercapacitance

Journal article

Rohan Bahadur, Gurwinder Singh, Mengyao Li, Dewei Chu, Jiabao Yi, Ajay Karakoti, Ajayan Vinu
Chemical Engineering Journal, vol. 460, 2023, p. 141793

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APA Click to copy
Bahadur, R., Singh, G., Li, M., Chu, D., Yi, J., Karakoti, A., & Vinu, A. (2023). BCN nanostructures conjugated nanoporous carbon with oxygenated surface and high specific surface area for enhanced CO2 capture and supercapacitance. Chemical Engineering Journal, 460, 141793.

Chicago/Turabian Click to copy
Bahadur, Rohan, Gurwinder Singh, Mengyao Li, Dewei Chu, Jiabao Yi, Ajay Karakoti, and Ajayan Vinu. “BCN Nanostructures Conjugated Nanoporous Carbon with Oxygenated Surface and High Specific Surface Area for Enhanced CO2 Capture and Supercapacitance.” Chemical Engineering Journal 460 (2023): 141793.

MLA Click to copy
Bahadur, Rohan, et al. “BCN Nanostructures Conjugated Nanoporous Carbon with Oxygenated Surface and High Specific Surface Area for Enhanced CO2 Capture and Supercapacitance.” Chemical Engineering Journal, vol. 460, 2023, p. 141793.

BibTeX Click to copy

@article{bahadur2023a,
  title = {BCN nanostructures conjugated nanoporous carbon with oxygenated surface and high specific surface area for enhanced CO2 capture and supercapacitance},
  year = {2023},
  journal = {Chemical Engineering Journal},
  pages = {141793},
  volume = {460},
  author = {Bahadur, Rohan and Singh, Gurwinder and Li, Mengyao and Chu, Dewei and Yi, Jiabao and Karakoti, Ajay and Vinu, Ajayan}
}

Rohan Bahadur

BCN nanostructures conjugated nanoporous carbon with oxygenated surface and high specific surface area for enhanced CO2 capture and supercapacitance

Journal article

Cite

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