Active sites engineering leads to exceptional ORR and OER bifunctionality in P,N Co-doped graphene frameworks
- Submitting institution
-
Imperial College of Science, Technology and Medicine
- Unit of assessment
- 12 - Engineering
- Output identifier
- 409
- Type
- D - Journal article
- DOI
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10.1039/c6ee03446b
- Title of journal
- Energy and Environmental Science
- Article number
- -
- First page
- 1186
- Volume
- 10
- Issue
- 5
- ISSN
- 1754-5692
- Open access status
- Compliant
- Month of publication
- March
- Year of publication
- 2017
- URL
-
-
- Supplementary information
-
10.1039/c6ee03446b
- Request cross-referral to
- -
- Output has been delayed by COVID-19
- No
- COVID-19 affected output statement
- -
- Forensic science
- No
- Criminology
- No
- Interdisciplinary
- No
- Number of additional authors
-
5
- Research group(s)
-
-
- Proposed double-weighted
- No
- Reserve for an output with double weighting
- No
- Additional information
- This work combines computational modelling with experiments in a multidisciplinary strategy which enables the design of low-cost and efficient bifunctional catalysts active for oxygen reduction and oxygen evolution reactions crucial in fuel cells, electrolysers, and metal air batteries. This work was awarded the best poster prize at CESEP17 and formed the basis of a successful Advanced Newton Fellowship application (£200k) with Fuzhou University.
- Author contribution statement
- -
- Non-English
- No
- English abstract
- -