Molecular artificial photosynthesis

Serena Berardi; Samuel Drouet; Laia Francàs; Carolina Gimbert-Suriñach; Miguel Guttentag; Craig Richmond; Thibaut Stoll; Antoni Llobet

doi:10.1039/c3cs60405e

Molecular artificial photosynthesis

Serena Berardi, Samuel Drouet, Laia Francàs, Carolina Gimbert-Suriñach, Miguel Guttentag, Craig Richmond, Thibaut Stoll, Antoni Llobet

Departament de Química

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© the Partner Organisations 2014. The replacement of fossil fuels by a clean and renewable energy source is one of the most urgent and challenging issues our society is facing today, which is why intense research has been devoted to this topic recently. Nature has been using sunlight as the primary energy input to oxidise water and generate carbohydrates (solar fuel) for over a billion years. Inspired, but not constrained, by nature, artificial systems can be designed to capture light and oxidise water and reduce protons or other organic compounds to generate useful chemical fuels. This tutorial review covers the primary topics that need to be understood and mastered in order to come up with practical solutions for the generation of solar fuels. These topics are: the fundamentals of light capturing and conversion, water oxidation catalysis, proton and CO2 reduction catalysis and the combination of all of these for the construction of complete cells for the generation of solar fuels.

Idioma original	Anglès
Pàgines (de-a)	7501-7519
Revista	Chemical Society Reviews
Volum	43
Número	22
DOIs	https://doi.org/10.1039/c3cs60405e
Estat de la publicació	Publicada - 1 de gen. 2014

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10.1039/c3cs60405e

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title = "Molecular artificial photosynthesis",

abstract = "{\textcopyright} the Partner Organisations 2014. The replacement of fossil fuels by a clean and renewable energy source is one of the most urgent and challenging issues our society is facing today, which is why intense research has been devoted to this topic recently. Nature has been using sunlight as the primary energy input to oxidise water and generate carbohydrates (solar fuel) for over a billion years. Inspired, but not constrained, by nature, artificial systems can be designed to capture light and oxidise water and reduce protons or other organic compounds to generate useful chemical fuels. This tutorial review covers the primary topics that need to be understood and mastered in order to come up with practical solutions for the generation of solar fuels. These topics are: the fundamentals of light capturing and conversion, water oxidation catalysis, proton and CO2 reduction catalysis and the combination of all of these for the construction of complete cells for the generation of solar fuels.",

author = "Serena Berardi and Samuel Drouet and Laia Franc{\`a}s and Carolina Gimbert-Suri{\~n}ach and Miguel Guttentag and Craig Richmond and Thibaut Stoll and Antoni Llobet",

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doi = "10.1039/c3cs60405e",

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T1 - Molecular artificial photosynthesis

AU - Berardi, Serena

AU - Drouet, Samuel

AU - Francàs, Laia

AU - Gimbert-Suriñach, Carolina

AU - Guttentag, Miguel

AU - Richmond, Craig

AU - Stoll, Thibaut

AU - Llobet, Antoni

PY - 2014/1/1

Y1 - 2014/1/1

N2 - © the Partner Organisations 2014. The replacement of fossil fuels by a clean and renewable energy source is one of the most urgent and challenging issues our society is facing today, which is why intense research has been devoted to this topic recently. Nature has been using sunlight as the primary energy input to oxidise water and generate carbohydrates (solar fuel) for over a billion years. Inspired, but not constrained, by nature, artificial systems can be designed to capture light and oxidise water and reduce protons or other organic compounds to generate useful chemical fuels. This tutorial review covers the primary topics that need to be understood and mastered in order to come up with practical solutions for the generation of solar fuels. These topics are: the fundamentals of light capturing and conversion, water oxidation catalysis, proton and CO2 reduction catalysis and the combination of all of these for the construction of complete cells for the generation of solar fuels.

AB - © the Partner Organisations 2014. The replacement of fossil fuels by a clean and renewable energy source is one of the most urgent and challenging issues our society is facing today, which is why intense research has been devoted to this topic recently. Nature has been using sunlight as the primary energy input to oxidise water and generate carbohydrates (solar fuel) for over a billion years. Inspired, but not constrained, by nature, artificial systems can be designed to capture light and oxidise water and reduce protons or other organic compounds to generate useful chemical fuels. This tutorial review covers the primary topics that need to be understood and mastered in order to come up with practical solutions for the generation of solar fuels. These topics are: the fundamentals of light capturing and conversion, water oxidation catalysis, proton and CO2 reduction catalysis and the combination of all of these for the construction of complete cells for the generation of solar fuels.

U2 - 10.1039/c3cs60405e

DO - 10.1039/c3cs60405e

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JO - Chemical Society Reviews

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Molecular artificial photosynthesis

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