Summary
Aron Walsh is a Full Professor and Fellow of the Royal Society of Chemistry (RSC) in the Department of Materials. He leads the Materials Design Group at the Thomas Young Centre in London and holds a Distinguished Visiting Professorship at Ewha Womans University in Seoul.
Aron was awarded his PhD in Chemistry from Trinity College Dublin. He then worked for the US Department of Energy at the National Renewable Energy Laboratory, followed by a Marie Curie Fellowship hosted by University College London, and a Royal Society University Research Fellowship held at the University of Bath.
His research involves cutting-edge materials theory and simulation applied to problems across solid-state chemistry and physics, including materials for solar cells and fuels, batteries, thermoelectrics, and solid-state lighting. He has expertise in the theory of semiconductors and dielectrics, and is developing innovative solutions for materials data, informatics and design. His group published a review on machine learning for molecules and materials in Nature.
These activities have been supported by funding from the Royal Society, EPSRC, and the European Research Council.
Aron was awarded the EU-40 prize from the European Materials Research Society and the Chemistry Society Reviews Emerging Investigator Lectureship for his work on the theory of next-generation perovskite photovoltaics. In 2017, he was a recipient of the Philip Leverhulme Prize. In 2019, he received the Corday-Morgan Prize from the RSC for his breakthrough research on hybrid organic-inorganic solids.
Aron features in the 2023 Highly Cited Researchers list. Full publication details can be found on Google Scholar.
Associate Editor
Journal of the American Chemical Society
Royal Society of Chemistry: Materials Horizons
American Chemical Society: ACS Energy Letters
Materials Research Society: MRS Energy & Sustainability
Springer Nature: npj Computational Materials
Institute of Physics: JPhys Energy
Publications
Journals
Ogawa K, Abe R, Walsh A, 2024, Band Gap Narrowing by Suppressed Lone-Pair Activity of Bi3., J Am Chem Soc, Vol:146, Pages:5806-5810
Li M, Li Z, Liu M, et al. , 2024, A Hole-Selective Self-Assembled Monolayer for Both Efficient Perovskite and Organic Solar Cells., Langmuir, Vol:40, Pages:4772-4778
Tort R, Bagger A, Westhead O, et al. , 2024, Correction to "Searching for the Rules of Electrochemical Nitrogen Fixation"., Acs Catal, Vol:14, ISSN:2155-5435, Pages:3169-3170
Aggarwal S, Kavanagh SR, Woo YW, et al. , 2024, PyTASER: Simulating transient absorption spectroscopy(TAS) for crystals from first principles, Journal of Open Source Software, Vol:9, Pages:5999-5999
Li M, Li Z, Fu H, et al. , 2024, Molecularly Engineered Self-Assembled Monolayers as Effective Hole-Selective Layers for Organic Solar Cells, Acs Applied Energy Materials, Vol:7, Pages:1306-1312