skip to content
Home

Yusuf Hamied Department of Chemistry

 

Professor Erwin Reisner

RAE Chair in Emerging Technologies

Our research

The Reisner laboratory develops new concepts and technologies for the conversion of solar energy and renewable electricity into sustainable fuels and chemicals for a circular economy. Thus, we explore chemical aspects of energy and sustainability, in particular photo- and electrocatalysis and the interface of synthetic chemistry, materials and nano-science, chemical biology and engineering. Central themes of our cross-disciplinary and collaborative approach are the development of processes for the upcycling of plastic and biomass waste as well as the use of carbon dioxide and water to produce green fuels and chemicals for a sustainable future.

More information can be found on our group website.

Keywords:  Solar fuels, solar chemicals, artificial photosynthesis, biohybrid materials, water and CO2 splitting, small molecule activation, catalysis, metalloenzymes, microbiology, biomimetic chemistry, bio-inorganic chemistry, synthetic chemistry, electrochemistry, photoelectrochemistry, materials Chemistry, nanotechnology, functional and energy materials.

See how the people in Bricktown benefit from Reisner's research

Plastic: The new fantastic

Mimicking nature to create a green fuel

Professor Reisner discusses his research

Take a tour of the Reisner Lab

Publications

Semi-artificial photoelectrochemistry for CO2-mediated enantioselective organic synthesis
T Bouwens, SJ Cobb, CWS Yeung, Y Liu, G Martins, IAC Pereira, E Reisner
– Journal of the American Chemical Society
(2025)
(doi: 10.1021/jacs.5c02250)
Photoelectrochemical comproportionation of pre-treated PET plastics and CO2 to formate
Y Liu, CWS Yeung, E Reisner
– Energy & environmental science
(2025)
(doi: 10.1039/d5ee00689a)
Driving Electrochemical Organic Hydrogenations on Metal Catalysts by Tailoring Hydrogen Surface Coverages.
A Ciotti, M Rahaman, CWS Yeung, T Li, E Reisner, M García-Melchor
– J Am Chem Soc
(2025)
147,
13158
(doi: 10.1021/jacs.4c15821)
Bio‐Inspired Self‐Assembly of Enzyme‐Micelle Systems for Semi‐Artificial Photosynthesis
Y Liu, S Rodríguez‐Jiménez, H Song, A Pannwitz, D Kim, AM Coito, RR Manuel, S Webb, L Su, SA Bonke, RD Milton, IAC Pereira, S Bonnet, L Hammarström, E Reisner
– Angewandte Chemie
(2025)
e202424222
(doi: 10.1002/ange.202424222)
Solar-Driven Paired CO2 Reduction–Alcohol Oxidation Using Semiartificial Suspension, Photocatalyst Sheet, and Photoelectrochemical Devices
M Rahaman, C Pulignani, M Miller, S Bhattacharjee, A Bin Mohamad Annuar, RR Manuel, IAC Pereira, E Reisner
– Journal of the American Chemical Society
(2025)
147,
8168
(doi: 10.1021/jacs.4c10519)
Biomimetic Enzyme-Micelle Self-Assembled Systems for Semi-Artificial Photosynthesis.
Y Liu, S Rodríguez-Jiménez, H Song, A Pannwitz, D Kim, AM Coito, RR Manuel, S Webb, L Su, SA Bonke, RD Milton, IAC Pereira, S Bonnet, L Hammarström, E Reisner
– Angewandte Chemie (International ed. in English)
(2025)
e202424222
(doi: 10.1002/anie.202424222)
Direct air capture of CO2 for solar fuel production in flow
S Kar, D Kim, A Bin Mohamad Annuar, BB Sarma, M Stanton, E Lam, S Bhattacharjee, S Karak, HF Greer, E Reisner
– Nature Energy
(2025)
10,
448
(doi: 10.1038/s41560-025-01714-y)
Perovskite-driven solar C2 hydrocarbon synthesis from CO2
V Andrei, I Roh, JA Lin, J Lee, Y Shan, CK Lin, S Shelton, E Reisner, P Yang
– Nature Catalysis
(2025)
8,
137
(doi: 10.1038/s41929-025-01292-y)
Modular perovskite-BiVO4 artificial leaves towards syngas synthesis on a m2 scale
V Andrei, Y-H Chiang, M Rahaman, M Anaya, T Kang, E Ruggeri, SD Stranks, E Reisner
– Energy and Environmental Sciences
(2025)
2025,
Advance Article
(doi: 10.26434/chemrxiv-2024-0q272)
Modular perovskite-BiVO4 artificial leaves towards syngas synthesis on a m2 scale
V Andrei, YH Chiang, M Rahaman, M Anaya, T Kang, E Ruggeri, SD Stranks, E Reisner
– Energy & Environmental Science
(2025)
18,
3623
(doi: 10.1039/d4ee05780e)
  • 1 of 32
  • >

Research Group

Research Interest Groups

Telephone number

01223 336323

Email address

er376@cam.ac.uk

Reisner Lab Twitter Feed

    Study at Cambridge

    About the University

    Research at Cambridge