Franco Cecconi scite author profile

Low-temperature electricity-driven water splitting is an established technology for hydrogen production. However, the two main types, namely proton exchange membrane (PEM) and liquid alkaline electrolysis, have limitations. For instance, PEM electrolysis requires a high amount of costly platinum-group-metal (PGM) catalysts, and liquid alkaline electrolysis is not well suited for intermittent operation. Herein we report a highly efficient alkaline polymer electrolysis design, which uses a membrane-electrode assembly (MEA) based on low-cost transition-metal catalysts and an anion exchange membrane (AEM). This system exhibited similar performance to the one achievable with PGM catalysts. Moreover, it is very suitable for intermittent power operation, durable, and able to efficiently operate at differential pressure up to 3 MPa. This system combines the benefits of PEM and liquid alkaline technologies allowing the scalable production of low-cost hydrogen from renewable sources.

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Synthesis and structure of a polyphosphine manganese(II) complex

Cecconi¹,

Ghilardi²,

Midollini³

et al. 1992

J. Chem. Soc., Dalton Trans.

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s-Block metal complexes of 2,4,6-trimercaptotriazine.

Cecconi

Ghilardi

Midollini

et al. 2003

Inorganica Chimica Acta

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Revisiting strontium-doped lanthanum cuprate perovskite for the electrochemical reduction of CO2

Mignard¹,

Barik

Bharadwaj

et al. 2014

Journal of CO2 Utilization

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Review: New Advances in the Coordination Chemistry of the Beryllium(ii)

Mederos

Domı́nguez

Chinea

et al. 2001

Journal of Coordination Chemistry

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Franco Cecconi

Highly Efficient Platinum Group Metal Free Based Membrane‐Electrode Assembly for Anion Exchange Membrane Water Electrolysis

Synthesis and structure of a polyphosphine manganese(II) complex

s-Block metal complexes of 2,4,6-trimercaptotriazine.

Revisiting strontium-doped lanthanum cuprate perovskite for the electrochemical reduction of CO2

Review: New Advances in the Coordination Chemistry of the Beryllium(ii)

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