Electrocatalysis for Green (er) Chemistry: Limitations and Opportunities with Traditional and Emerging Characterization Methods for Tangible Societal Impact


Journal article


Peter C Sherrell, Mairis Iesalnieks, Yemima Ehrnst, Amgad R Rezk, Andris {\v{S}}utka
Advanced Energy and Sustainability Research, vol. 5, Wiley Online Library, 2024, p. 2400008

Cite

Cite

APA   Click to copy
Sherrell, P. C., Iesalnieks, M., Ehrnst, Y., Rezk, A. R., & {\v{S}}utka, A. (2024). Electrocatalysis for Green (er) Chemistry: Limitations and Opportunities with Traditional and Emerging Characterization Methods for Tangible Societal Impact. Advanced Energy and Sustainability Research, 5, 2400008.


Chicago/Turabian   Click to copy
Sherrell, Peter C, Mairis Iesalnieks, Yemima Ehrnst, Amgad R Rezk, and Andris {\v{S}}utka. “Electrocatalysis for Green (Er) Chemistry: Limitations and Opportunities with Traditional and Emerging Characterization Methods for Tangible Societal Impact.” Advanced Energy and Sustainability Research 5 (2024): 2400008.


MLA   Click to copy
Sherrell, Peter C., et al. “Electrocatalysis for Green (Er) Chemistry: Limitations and Opportunities with Traditional and Emerging Characterization Methods for Tangible Societal Impact.” Advanced Energy and Sustainability Research, vol. 5, Wiley Online Library, 2024, p. 2400008.


BibTeX   Click to copy

@article{sherrell2024a,
  title = {Electrocatalysis for Green (er) Chemistry: Limitations and Opportunities with Traditional and Emerging Characterization Methods for Tangible Societal Impact},
  year = {2024},
  journal = {Advanced Energy and Sustainability Research},
  pages = {2400008},
  publisher = {Wiley Online Library},
  volume = {5},
  author = {Sherrell, Peter C and Iesalnieks, Mairis and Ehrnst, Yemima and Rezk, Amgad R and {\v{S}}utka, Andris}
}


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