2024 Faraday Horizon Prize Winners
Electrical Transport Spectroscopy
Awarded for 乐天堂app下载 development of electron transport microscopy to experimentally determine 乐天堂app下载 platinum-surface hydronium pKa and its role in pH-dependent hydrogen evolution reactions.
乐天堂app下载 Electrical Transport Spectroscopy team is a collaboration between 乐天堂app下载 University of California, Los Angeles, Caltech and Suzhou University, China.
2024 Faraday Division Horizon Prize
Lighting up RNA team
Awarded for 乐天堂app下载 development of electron transport microscopy to experimentally determine 乐天堂app下载 platinum-surface hydronium pKa and its role in pH-dependent hydrogen evolution reactions.
乐天堂app下载 Lighting up RNA team is a collaboration between groups from Zhejiang University, Shanghai Jiatong University, and 乐天堂app下载 East China University of Science and Technology.
| Year | Name | Institution | Citation |
| 2023 | Electron Bifurcation | Awarded for discovering 乐天堂app下载 essential structural and redox potential landscapes that are required to generate high-efficiency electron bifurcation reactions in flavoproteins. | |
| 2022 | Chiroptical Harmony | New optically nonlinear chiral effect | Awarded for 乐天堂app下载 discovery of chiroptical harmonic scattering, 乐天堂app下载oretically predicted in 1979 and demonstrated experimentally 40 years later. |
| 2022 | Single Atom Alloy Catalysis | Single-atom alloy catalysts for sustainable chemistry | Awarded for 乐天堂app下载 development of single-atom alloys, a new class of catalysts that play a prominent role in 乐天堂app下载 energy and sustainability fields. |
| 2021 | Ultrafast X-ray scattering | Recording molecular motion with ultrafast x-rays | Awarded for 乐天堂app下载 development of ultrafast x-ray scattering for studying chemical dynamics and structure in photoexcited molecules. |
| 2021 | MXene Electrochemistry | Uncovering 乐天堂app下载 electrochemistry of MXenes | Awarded for novel studies on 乐天堂app下载 electrochemical properties and energy storage applications of MXenes. |
Re-thinking recognition: Science prizes for 乐天堂app下载 modern world
This report is 乐天堂app下载 result of an independent review of our recognition programmes. Our aim in commissioning this review was to ensure that our recognition portfolio continues to deliver 乐天堂app下载 maximum impact for chemical scientists, chemistry and society.