Environmental concerns deriving from fossil fuel dependency are driving an energy transition based on sustainable processes to make fuels and chemicals. Solar hydrogen is the pillar of this new green economy, but the technological readiness level of PV electrolysis and direct photoelectrochemical (PEC) electrolysis are still too low to allow broad commercialization. Direct conversion through PEC technology has more potential in the medium–long term but must be first guided by the scientific enhancements to improve device efficiencies. For this purpose, in situ and operando photoelectrochemistry will guide the discovery of new materials and processes to make solar fuels and chemicals in PEC cells.

In situ characterizations of photoelectrochemical cells for solar fuels and chemicals / R. Yalavarthi, O. Henrotte, A. Minguzzi, P. Ghigna, D.A. Grave, A. Naldoni. - In: MRS ENERGY & SUSTAINABILITY. - ISSN 2329-2229. - (2020), pp. E37.1-E37.27. [10.1557/mre.2020.37]

In situ characterizations of photoelectrochemical cells for solar fuels and chemicals

A. Minguzzi;A. Naldoni
2020

Abstract

Environmental concerns deriving from fossil fuel dependency are driving an energy transition based on sustainable processes to make fuels and chemicals. Solar hydrogen is the pillar of this new green economy, but the technological readiness level of PV electrolysis and direct photoelectrochemical (PEC) electrolysis are still too low to allow broad commercialization. Direct conversion through PEC technology has more potential in the medium–long term but must be first guided by the scientific enhancements to improve device efficiencies. For this purpose, in situ and operando photoelectrochemistry will guide the discovery of new materials and processes to make solar fuels and chemicals in PEC cells.
chemical reaction; energy storage; semiconducting
Settore CHIM/02 - Chimica Fisica
2020
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/779376
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