Triphenylamine-Substituted Ni(II) Porphyrins for Urea Electro-oxidation

Lu, Shun; Zheng, Xingqun; Zeng, Yi; Hua, Qingsong; Wang, Xingzu; Liu, Yuan; Liu, Hong

doi:10.1021/acs.inorgchem.4c03870

Inorg. Chem.

2024

DOI: 10.1021/acs.inorgchem.4c03870

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Triphenylamine-Substituted Ni(II) Porphyrins for Urea Electro-oxidation

Shun Lu,

Xingqun Zheng,

Yi Zeng

et al.

Abstract: Porphyrin-based molecular catalysts possess a typical aromatic macrocyclic structure regarding their metal centers and coordination frameworks, allowing for the development of promising electrocatalysts through precise selection of the metal and porphyrin ligand. However, reports on metalloporphyrins as catalysts for the electrocatalytic urea oxidation reaction (UOR) remain scarce. With these considerations in mind, the triphenylamine-Ni(II) porphyrin (NiPor-TPA) was synthesized through the solvothermal approa… Show more

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Cited by 2 publications

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Enhanced Urea Oxidation Reaction Through Layered Double Hydroxides: Insights From ZIF‐67‐Derived Nanostructures

Jeon,

Medvedev,

Seong

et al. 2024

EcoMat

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Layered double hydroxides (LDHs) are ionic layered compounds characterized by anion‐containing intermediate regions within positively charged brucite‐like layers. LDHs have shown high electrochemical activity in energy conversion systems such as batteries and fuel cells. In this study, we developed a hierarchically porous nanostructure derived from zeolitic imidazolate framework‐67, which was subsequently transformed into an LDH structure with varying Ni concentrations. We precisely controlled the Ni‐to‐Co ratio within the LDH structure and investigated how different mole fractions of Co and Ni influence catalytic activity and selectivity for the electrochemical urea oxidation reaction (UOR). LDH structures with low Ni content (up to 40%) demonstrated high activity and selectivity for O2 due to their structural instability and the predominant oxygen evolution reaction (OER) originating from ZIF‐67. In contrast, LDHs with high Ni content (over 60%) supressed OER and exhibited enhanced activity for UOR. The resulting hollow structure with an expanded electrochemically active surface in LDHs with high Ni content could improve mass transport and diffusion at the electrode interface, leading to better reaction kinetics and higher current densities. These findings provide a foundational design guideline for metal–organic framework‐derived nanostructure in UOR. image

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Enhanced Urea Oxidation Reaction Through Layered Double Hydroxides: Insights From ZIF‐67‐Derived Nanostructures

Jeon,

Medvedev,

Seong

et al. 2024

EcoMat

View full text Add to dashboard Cite

show abstract

Portable Electroanalytical Platform Based on Eco-Friendly Biomass-Based Hydrogels with Bimetallic MOF Composites for Trace Acetaminophen Determination

Liu,

Sun,

Sun

et al. 2024

ACS Biomater. Sci. Eng.

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Triphenylamine-Substituted Ni(II) Porphyrins for Urea Electro-oxidation

Cited by 2 publications

References 38 publications

Enhanced Urea Oxidation Reaction Through Layered Double Hydroxides: Insights From ZIF‐67‐Derived Nanostructures

Enhanced Urea Oxidation Reaction Through Layered Double Hydroxides: Insights From ZIF‐67‐Derived Nanostructures

Portable Electroanalytical Platform Based on Eco-Friendly Biomass-Based Hydrogels with Bimetallic MOF Composites for Trace Acetaminophen Determination

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