M
Maurin Cornuz
Researcher at École Polytechnique Fédérale de Lausanne
Publications - 19
Citations - 4593
Maurin Cornuz is an academic researcher from École Polytechnique Fédérale de Lausanne. The author has contributed to research in topics: Water splitting & Hematite. The author has an hindex of 13, co-authored 17 publications receiving 4162 citations. Previous affiliations of Maurin Cornuz include École Normale Supérieure & École Polytechnique.
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Light-Induced Water Splitting with Hematite: Improved Nanostructure and Iridium Oxide Catalysis†
TL;DR: Light-induced water splitting over iron oxide (hematite) has been achieved by using a particle-assisted deposition technique and IrO2-based surface catalysis and these photocurrents are unmatched by any other oxide-based photoanode.
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Passivating surface states on water splitting hematite photoanodes with alumina overlayers
TL;DR: In this article, an ultra-thin coating of Al2O3 was applied on the surface of high-performance hematite to reduce the overpotential of the material and increase the photocurrent.
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Photo-assisted electrodeposition of cobalt–phosphate (Co–Pi) catalyst on hematite photoanodes for solar water oxidation
TL;DR: A photo-assisted electrodeposition approach was used to deposit a cobalt-phosphate water oxidation catalyst (Co-Pi) onto recently improved dendritic mesostructures of α-Fe2O3.
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Identifying champion nanostructures for solar water-splitting
Scott C. Warren,Scott C. Warren,Kislon Voïtchovsky,Hen Dotan,Céline M. Leroy,Maurin Cornuz,Francesco Stellacci,Cécile Hébert,Avner Rothschild,Michael Grätzel +9 more
TL;DR: In correlating structure and charge transport with nanometre resolution across micrometre-scale distances, this work has identified the existence of champion nanoparticle aggregates that are most responsible for the high photoelectrochemical activity of the present electrodes.
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Highly efficient water splitting by a dual-absorber tandem cell
Jérémie Brillet,Jun-Ho Yum,Maurin Cornuz,Takashi Hisatomi,Renata Solarska,Jan Augustynski,Michael Graetzel,Kevin Sivula +7 more
TL;DR: In this paper, a photoelectrochemical cell made from combining a dye-sensitized solar cell with a semiconductor-oxide photoanode is demonstrated to perform water splitting with an efficiency of up to 3.1%.