Design and Development of Sustainable Cu<sub>2</sub> (II)- and Mn<sub>2</sub> (III)-Embedded Bifunctional Electrocatalysts: Enhanced Hydrogen and Oxygen Generation

Kumar, Niteesh; Wagh, Lalita; Mehmood, Sajid; Das, Apurba K.; Ghorai, Tanmay Kumar

doi:10.1021/acs.inorgchem.3c04271

Inorg. Chem.

2024

DOI: 10.1021/acs.inorgchem.3c04271

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Design and Development of Sustainable Cu₂ (II)- and Mn₂ (III)-Embedded Bifunctional Electrocatalysts: Enhanced Hydrogen and Oxygen Generation

Niteesh Kumar,

Lalita Wagh,

Sajid Mehmood

et al.

Abstract: Nowadays, environmentally friendly, low-cost-effective, and sustainable electrocatalysts used widely for hydrogen and oxygen evolution reactions have come into the limelight as a new research topic for scientists. This study highlights the preparation of two unique and symmetrical dinuclear Cu (II) and Mn (III) bifunctional catalysts by a facile simple slow evaporation and diffusion route. [C 32 H 24 Cu 2 F 4 N 4 O 4 ] (1) and [C 32 H 24 Mn 2 F 4 N 4 O 4 ](2) both have monoclinic (C2/c (15)) crystal systems, w… Show more

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Design, Synthesis, Magnetic Properties, and Hydrogen Evolution Reaction of a Butterfly-like Heterometallic Trinuclear [Cu^II₂Mn^II] Cluster

Sarkar,

De,

Maji

et al. 2024

Inorg. Chem.

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A novel heterometallic trinuclear cluster [Cu II 2 Mn II (cpdp)(NO 3 ) 2 (Cl)] (1) has been designed and synthesized by employing a molecular library approach that uses CuCl 2 •2H 2 O and Mn(NO 3 ) 2 •4H 2 O as inorganic metal salts and H 3 cpdp as a multifunctional organic scaffold (H 3 cpdp = N,N′-bis[2-carboxybenzomethyl]-N, N′-bis[2-pyridylmethyl]-1,3-diaminopropan-2-ol). This heterometallic cluster has emerged as an unusual ferromagnetic material and promising electrocatalyst for hydrogen evolution reaction (HER) in the domain of inorganic and materials chemistry. Crystal structure analysis establishes the structural arrangement of 1, revealing a butterfly-like topology with an unusual seven-coordinated Mn(II) center. Formation of this cluster is accomplished by a self-assembly process through functionalization of 1 with one μ 2 :η 1 :η 1 -nitrate and two μ 2 :η 2 :η 1 -benzoate groups via the Cu II (μ 2 -NO 3 )Cu II } and {Cu II (μ 2 -O 2 CC 6 H 5 )Mn II } linkages, respectively. Variable-temperature SQUID magnetometry revealed the coexistence of ferromagnetic and antiferromagnetic interactions in 1. The observed magnetic behavior in 1 is unexpected because of a large Cu−O−Mn angle with a value of 132.05°, indicating that the correlation between coupling constants and the structural parameters is a multifactor problem. This cluster shows excellent electrocatalytic performance for the HER attaining a current density of 10 mA/cm 2 with a Tafel slope of 183 mV dec −1 at a 310 mV overpotential value. Essentially, cluster 1 shows exceptional electrochemical stability at ambient temperature, accompanied by minimal degradation of the current density as examined by chronoamperometric studies. Density functional theory calculations establish the mechanistic insight into the HER process, indicating that the Cu II −OCO−Mn II site is the active site for formation of molecular hydrogen.

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Design, Synthesis, Magnetic Properties, and Hydrogen Evolution Reaction of a Butterfly-like Heterometallic Trinuclear [Cu^II₂Mn^II] Cluster

Sarkar,

De,

Maji

et al. 2024

Inorg. Chem.

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Electrocatalytic hydrogen evolution reaction with a Cu porphyrin bearing meso-CF₃ substituents

Li,

Peng,

Qin

et al. 2024

Dalton Trans.

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Design and Development of Sustainable Cu₂ (II)- and Mn₂ (III)-Embedded Bifunctional Electrocatalysts: Enhanced Hydrogen and Oxygen Generation

Cited by 2 publications

References 52 publications

Design, Synthesis, Magnetic Properties, and Hydrogen Evolution Reaction of a Butterfly-like Heterometallic Trinuclear [Cu^II₂Mn^II] Cluster

Design, Synthesis, Magnetic Properties, and Hydrogen Evolution Reaction of a Butterfly-like Heterometallic Trinuclear [Cu^II₂Mn^II] Cluster

Electrocatalytic hydrogen evolution reaction with a Cu porphyrin bearing meso-CF₃ substituents

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Design and Development of Sustainable Cu2 (II)- and Mn2 (III)-Embedded Bifunctional Electrocatalysts: Enhanced Hydrogen and Oxygen Generation

Cited by 2 publications

References 52 publications

Design, Synthesis, Magnetic Properties, and Hydrogen Evolution Reaction of a Butterfly-like Heterometallic Trinuclear [CuII2MnII] Cluster

Design, Synthesis, Magnetic Properties, and Hydrogen Evolution Reaction of a Butterfly-like Heterometallic Trinuclear [CuII2MnII] Cluster

Electrocatalytic hydrogen evolution reaction with a Cu porphyrin bearing meso-CF3 substituents

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Product

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Design and Development of Sustainable Cu₂ (II)- and Mn₂ (III)-Embedded Bifunctional Electrocatalysts: Enhanced Hydrogen and Oxygen Generation

Design, Synthesis, Magnetic Properties, and Hydrogen Evolution Reaction of a Butterfly-like Heterometallic Trinuclear [Cu^II₂Mn^II] Cluster

Design, Synthesis, Magnetic Properties, and Hydrogen Evolution Reaction of a Butterfly-like Heterometallic Trinuclear [Cu^II₂Mn^II] Cluster

Electrocatalytic hydrogen evolution reaction with a Cu porphyrin bearing meso-CF₃ substituents