Nickel decorated MoO3 single crystal microflakes with multi-site functionality for enhanced hydrogen evolution reaction

Role of hybrid material with metal-oxide interface has been explored by coating 2 nm nickel on α-MoO3 single crystals for hydrogen evolution reaction (HER). The investigated aspects reveal that α-MoO3/Ni hybrid exhibits a remarkable performance in HER showing +6 mV onset potential and 37 mV overpote...

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Published inInternational journal of hydrogen energy Vol. 46; no. 2; pp. 1945 - 1954
Main Authors Arya, Nitika, Avasthi, Piyush, Halder, Aditi, Balakrishnan, Viswanath
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 06.01.2021
Subjects
CVD growth
Hydrogen evolution reaction
Hydrogen spillover
Metal-oxide interface
Single crystals
Single crystals
Metal-oxide interface
Hydrogen evolution reaction
CVD growth
Hydrogen spillover
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Abstract Role of hybrid material with metal-oxide interface has been explored by coating 2 nm nickel on α-MoO3 single crystals for hydrogen evolution reaction (HER). The investigated aspects reveal that α-MoO3/Ni hybrid exhibits a remarkable performance in HER showing +6 mV onset potential and 37 mV overpotential at 10 mA/cm2 current density along with Tafel slope of 47 mV/dec. The single crystalline-stepped CVD-grown MoO3 microflakes having the advantage of higher hydrogen binding energy of Ni exhibits the enhanced catalytic performance due to strong electronic coupling at the metal-oxide interface and hydrogen spill over effect. Similar hybrid material composed of Cu-MoO3 does show improvement but not as good as Ni-MoO3. A decrease of ~36% is observed in the overpotential for Ni-coated MoO3 compared to pure MoO3 crystals indicating the positive contribution of Ni-coating. The hybrid Ni-MoO3 shows the new route to develop alternate transition metal oxide-based hybrid catalyst towards production of hydrogen fuel. •Growth of MoO3 single crystal microflakes with layered structure provides catalytically active surface sites for HER.•Development of Cu and Ni-coated MoO3 hybrid material ensues a constructive synergism to lower the overpotential for HER.•Hydrogen spillover effect and electronically coupled Ni-MoO3 interface fosters the hydrogen evolution activity.
AbstractList Role of hybrid material with metal-oxide interface has been explored by coating 2 nm nickel on α-MoO3 single crystals for hydrogen evolution reaction (HER). The investigated aspects reveal that α-MoO3/Ni hybrid exhibits a remarkable performance in HER showing +6 mV onset potential and 37 mV overpotential at 10 mA/cm2 current density along with Tafel slope of 47 mV/dec. The single crystalline-stepped CVD-grown MoO3 microflakes having the advantage of higher hydrogen binding energy of Ni exhibits the enhanced catalytic performance due to strong electronic coupling at the metal-oxide interface and hydrogen spill over effect. Similar hybrid material composed of Cu-MoO3 does show improvement but not as good as Ni-MoO3. A decrease of ~36% is observed in the overpotential for Ni-coated MoO3 compared to pure MoO3 crystals indicating the positive contribution of Ni-coating. The hybrid Ni-MoO3 shows the new route to develop alternate transition metal oxide-based hybrid catalyst towards production of hydrogen fuel. •Growth of MoO3 single crystal microflakes with layered structure provides catalytically active surface sites for HER.•Development of Cu and Ni-coated MoO3 hybrid material ensues a constructive synergism to lower the overpotential for HER.•Hydrogen spillover effect and electronically coupled Ni-MoO3 interface fosters the hydrogen evolution activity.
Author Arya, Nitika
Halder, Aditi
Balakrishnan, Viswanath
Avasthi, Piyush
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Keywords Single crystals
Metal-oxide interface
Hydrogen evolution reaction
CVD growth
Hydrogen spillover
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Snippet Role of hybrid material with metal-oxide interface has been explored by coating 2 nm nickel on α-MoO3 single crystals for hydrogen evolution reaction (HER)....
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SubjectTerms CVD growth
Hydrogen evolution reaction
Hydrogen spillover
Metal-oxide interface
Single crystals
Title Nickel decorated MoO3 single crystal microflakes with multi-site functionality for enhanced hydrogen evolution reaction
URI https://dx.doi.org/10.1016/j.ijhydene.2020.10.030
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