C
Carolina Gimbert-Suriñach
Researcher at Autonomous University of Barcelona
Publications - 55
Citations - 2274
Carolina Gimbert-Suriñach is an academic researcher from Autonomous University of Barcelona. The author has contributed to research in topics: Catalysis & Ruthenium. The author has an hindex of 19, co-authored 51 publications receiving 1698 citations. Previous affiliations of Carolina Gimbert-Suriñach include Rovira i Virgili University & University of New South Wales.
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Journal ArticleDOI
Molecular artificial photosynthesis.
Serena Berardi,Samuel Drouet,Laia Francàs,Carolina Gimbert-Suriñach,Miguel Guttentag,Craig J. Richmond,Thibaut Stoll,Antoni Llobet +7 more
TL;DR: This tutorial review covers the fundamentals of light capturing and conversion, water oxidation catalysis, proton and CO2 reduction catalysis and the combination of these for the construction of complete cells for the generation of solar fuels.
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The development of molecular water oxidation catalysts
Roc Matheu,Pablo Garrido-Barros,Marcos Gil-Sepulcre,Mehmed Z. Ertem,Xavier Sala,Carolina Gimbert-Suriñach,Antoni Llobet +6 more
TL;DR: In this paper, historical developments in molecular water oxidation catalysis, emphasizing studies of ruthenium complexes that have taught us how to design optimal catalysts, have been presented.
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How to make an efficient and robust molecular catalyst for water oxidation
TL;DR: This tutorial describes the different important aspects that need to be considered to come up with efficient and oxidatively robust molecular water oxidation catalysts (Mol-WOCs) based on the own previous work and completed with essential contributions from other active groups in the field.
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Efficient and Limiting Reactions in Aqueous Light-Induced Hydrogen Evolution Systems using Molecular Catalysts and Quantum Dots
Carolina Gimbert-Suriñach,Josep Albero,Thibaut Stoll,Jérôme Fortage,Marie-Noëlle Collomb,Alain Deronzier,Emilio Palomares,Antoni Llobet +7 more
TL;DR: The results demonstrate that the electron transfer from the quantum dots to the catalyst occurs fast enough and efficiently (nanosecond time scale), while the back electron transfer and catalysis are much slower (millisecond and microsecond time scales).
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Seven Coordinated Molecular Ruthenium-Water Oxidation Catalysts: A Coordination Chemistry Journey.
TL;DR: This Review covers the latest and most significant developments on Ru complexes that behave as powerful water oxidation catalysts and where at some stage the Ru metal attains coordination number 7.