Zhou, P.; Tsang, J.-H.; Blackman, C.; Shen, Y.; Liang, J.; Covington, J.A.; Saffell, J.; Danesh, E.
A Novel Mechanism Based on Oxygen Vacancies to Describe Isobutylene and Ammonia Sensing of p-Type Cr2O3 and Ti-Doped Cr2O3 Thin Films. Chemosensors 2024, 12, 218.
https://doi.org/10.3390/chemosensors12100218
AMA Style
Zhou P, Tsang J-H, Blackman C, Shen Y, Liang J, Covington JA, Saffell J, Danesh E.
A Novel Mechanism Based on Oxygen Vacancies to Describe Isobutylene and Ammonia Sensing of p-Type Cr2O3 and Ti-Doped Cr2O3 Thin Films. Chemosensors. 2024; 12(10):218.
https://doi.org/10.3390/chemosensors12100218
Chicago/Turabian Style
Zhou, Pengfei, Jone-Him Tsang, Chris Blackman, Yanbai Shen, Jinsheng Liang, James A. Covington, John Saffell, and Ehsan Danesh.
2024. "A Novel Mechanism Based on Oxygen Vacancies to Describe Isobutylene and Ammonia Sensing of p-Type Cr2O3 and Ti-Doped Cr2O3 Thin Films" Chemosensors 12, no. 10: 218.
https://doi.org/10.3390/chemosensors12100218
APA Style
Zhou, P., Tsang, J.-H., Blackman, C., Shen, Y., Liang, J., Covington, J. A., Saffell, J., & Danesh, E.
(2024). A Novel Mechanism Based on Oxygen Vacancies to Describe Isobutylene and Ammonia Sensing of p-Type Cr2O3 and Ti-Doped Cr2O3 Thin Films. Chemosensors, 12(10), 218.
https://doi.org/10.3390/chemosensors12100218