Solar enhanced oxygen evolution reaction with transition metal telluride

Singh, Harish; Higuchi-Roos, Taishi; Roncoroni, Fabrice; Prendergast, David; Nath, Manashi

doi:10.3389/fchem.2024.1381144

Front. Chem.

2024

DOI: 10.3389/fchem.2024.1381144

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Solar enhanced oxygen evolution reaction with transition metal telluride

Harish Singh,

Taishi Higuchi-Roos,

Fabrice Roncoroni

et al.

Abstract: The photo-enhanced electrocatalytic method of oxygen evolution reaction (OER) shows promise for enhancing the effectiveness of clear energy generation through water splitting by using renewable and sustainable source of energy. However, despite benefits of photoelectrocatalytic (PEC) water splitting, its uses are constrained by its low efficiency as a result of charge carrier recombination, a large overpotential, and sluggish reaction kinetics. Here, we illustrate that Nickel telluride (NiTe) synthesized by hy… Show more

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CoTe Tailored CoNiSe₂ Nanostructures as CoTe/CoNiSe₂ Hybrids Facilitating Bifunctional Behavior in Overall Water Splitting

Atallah,

Ali Shah,

Rodríguez-Ortiz

et al. 2024

ACS Appl. Energy Mater.

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Designing efficient, low cost, and stable electrocatalytic systems to promote (oxygen evolution reaction) OER and (hydrogen evolution reaction) HER kinetics in the overall water splitting reaction is a key constraint. Telluride-and selenide-based electrocatalytic systems are promising materials which facilitate H + adsorption onto active sites during the catalytic process in transition metal-based nanostructures. Herein, we developed a CoTe/CoNiSe 2 hybrid system to promote interfacial charge transfer between metallic and semimetallic sites. The hybridized CoTe/CoNiSe 2 nanostructures, grown in situ on Ni-foam, comprised a higher catalytic response than their pristine counterparts. Low onset potential and high current density favors the hybridization approach for these Co-and Ni-based telluride-selenide electrocatalysts. The decreased cell voltage potential of 1.40 and 1.43 V was observed in a two-electrode-based overall water splitting cell, which favors their role as proficient catalytic materials. Overall water splitting effectiveness is markedly improved by the hybrid interface between CoTe and CoNiSe 2 because of greater electron mobility and larger active surface area. This work makes a substantial contribution to the catalysis field by presenting an approach for developing extremely efficient electrocatalysts.

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CoTe Tailored CoNiSe₂ Nanostructures as CoTe/CoNiSe₂ Hybrids Facilitating Bifunctional Behavior in Overall Water Splitting

Atallah,

Ali Shah,

Rodríguez-Ortiz

et al. 2024

ACS Appl. Energy Mater.

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show abstract

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Solar enhanced oxygen evolution reaction with transition metal telluride

Cited by 1 publication

References 53 publications

CoTe Tailored CoNiSe₂ Nanostructures as CoTe/CoNiSe₂ Hybrids Facilitating Bifunctional Behavior in Overall Water Splitting

CoTe Tailored CoNiSe₂ Nanostructures as CoTe/CoNiSe₂ Hybrids Facilitating Bifunctional Behavior in Overall Water Splitting

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Solar enhanced oxygen evolution reaction with transition metal telluride

Cited by 1 publication

References 53 publications

CoTe Tailored CoNiSe2 Nanostructures as CoTe/CoNiSe2 Hybrids Facilitating Bifunctional Behavior in Overall Water Splitting

CoTe Tailored CoNiSe2 Nanostructures as CoTe/CoNiSe2 Hybrids Facilitating Bifunctional Behavior in Overall Water Splitting

Contact Info

Product

Resources

About

CoTe Tailored CoNiSe₂ Nanostructures as CoTe/CoNiSe₂ Hybrids Facilitating Bifunctional Behavior in Overall Water Splitting

CoTe Tailored CoNiSe₂ Nanostructures as CoTe/CoNiSe₂ Hybrids Facilitating Bifunctional Behavior in Overall Water Splitting