Broadband light active MTCNQ-based metal–organic semiconducting hybrids for enhanced redox catalysis

Journal article

M. Mohammadtaheri, R. Ramanathan*, S. Walia, T. Ahmed, P. Weerathunge, S. R. Anderson, M. R. Field, C. D. Dekiwadia, A. P. O’Mullane, E. Della Gaspera, M. Bhaskaran, S. Sriram, V. Bansal
Appl. Mater. Today, vol. 13, 2018, pp. 107-115

DOI: 10.1016/j.apmt.2018.08.008

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APA Click to copy
Mohammadtaheri, M., Ramanathan*, R., Walia, S., Ahmed, T., Weerathunge, P., Anderson, S. R., … Bansal, V. (2018). Broadband light active MTCNQ-based metal–organic semiconducting hybrids for enhanced redox catalysis. Appl. Mater. Today, 13, 107–115. https://doi.org/10.1016/j.apmt.2018.08.008

Chicago/Turabian Click to copy
Mohammadtaheri, M., R. Ramanathan*, S. Walia, T. Ahmed, P. Weerathunge, S. R. Anderson, M. R. Field, et al. “Broadband Light Active MTCNQ-Based Metal–Organic Semiconducting Hybrids for Enhanced Redox Catalysis.” Appl. Mater. Today 13 (2018): 107–115.

MLA Click to copy
Mohammadtaheri, M., et al. “Broadband Light Active MTCNQ-Based Metal–Organic Semiconducting Hybrids for Enhanced Redox Catalysis.” Appl. Mater. Today, vol. 13, 2018, pp. 107–15, doi:10.1016/j.apmt.2018.08.008.

BibTeX Click to copy

@article{m2018a,
  title = {Broadband light active MTCNQ-based metal–organic semiconducting hybrids for enhanced redox catalysis},
  year = {2018},
  journal = {Appl. Mater. Today},
  pages = {107-115},
  volume = {13},
  doi = {10.1016/j.apmt.2018.08.008},
  author = {Mohammadtaheri, M. and Ramanathan*, R. and Walia, S. and Ahmed, T. and Weerathunge, P. and Anderson, S. R. and Field, M. R. and Dekiwadia, C. D. and O’Mullane, A. P. and Gaspera, E. Della and Bhaskaran, M. and Sriram, S. and Bansal, V.}
}

Broadband light active MTCNQ-based metal–organic semiconducting hybrids for enhanced redox catalysis

Journal article

Cite

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