Sea Urchin‐Like MOF‐Derived Formation of Porous Cu<sub>3</sub>P@C as an Efficient and Stable Electrocatalyst for Oxygen Evolution and Hydrogen Evolution Reactions

Rong, Jian; Xu, Jinchao; Qiu, Fengxian; Zhu, Yao; Fang, Yuanyuan; Xu, Jicheng; Zhang, Tao

doi:10.1002/admi.201900502

Cited by 57 publications

(48 citation statements)

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“…17,18 Interesting nanostructures resembling natural shapes can be obtained. For instance, using solvothermal or hydrothermal strategies, ower-, [19][20][21][22][23] leaf-, 24,25 coral- [26][27][28][29][30] and seaurchin-like nanostructures have been reported recently, 31,32 demonstrating much enhanced performances in different applications. However, the biomimetic appearance of these patterns during the synthesis, in many cases, is not based on predictive mechanisms.…”

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confidence: 99%

“Nano-garden cultivation” for electrocatalysis: controlled synthesis of Nature-inspired hierarchical nanostructures

et al. 2020

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confidence: 99%

“Nano-garden cultivation” for electrocatalysis: controlled synthesis of Nature-inspired hierarchical nanostructures

et al. 2020

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“…Figure C displays the narrow scans of C 1 s for Fe 3 O 4 @CT‐COOH‐BA in detail. The C 1 s signal can be divided into four binding energies located at 284.6, 286, 287.1 and 288.2 eV, which could be ascribed to C‐C, C‐O, C=O and C‐N bonding . respectively.…”

Section: Resultsmentioning

confidence: 99%

Fe₃O₄@chitosan‐bound boric acid composite as pH‐responsive reusable adsorbent for selective recognition and capture of cis‐diol‐containing shikimic acid

Zhu

Rong

Mao

et al. 2019

Applied Organom Chemis

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Recently, shikimic acid (SA) has aroused great concern as the starting raw material for the synthesis of antiviral drug (Tamiflu) against the spread of influenza virus in the body. In this work, magnetic chitosan composite modified with boric acid and its application in SA recognition and separation was described. Chitosan (CT) with plenty of hydroxyl and amino groups was first coated on the surface of magnetic core Fe3O4, then carboxylic groups were grafted to the surface of Fe3O4@CT via anhydride modification, followed by the introduction of 3‐aminophenylboronic acid (APBA). The uniform morphology and composition analysis of the adsorbent (Fe3O4@CT‐COOH‐BA) were characterized by FT‐IR, XRD, XPS, SEM, TEM and UV–visible spectroscopy. The adsorption capacity of as‐prepared material was explored in detail by batch mode experiments. The adsorption kinetics fitted well with a pseudo‐second order model, and the adsorption isotherms was well described by the Langmuir model with a maximum adsorption capacity of 23.8 mg g−1 at 25 °C. Solution pH plays a crucial role in adsorption process and the optimized pH was 8.0. In addition, Fe3O4@CT‐COOH‐BA could be easily reused through an external magnet and the adsorption capacity reduced by only 4% after five adsorption–desorption cycles. These results prove that boric acid modified magnetic chitosan composite is an effective and practical adsorbent for specific recognition and selective adsorption of cis‐diol‐containing compounds.

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“…To develop a Cu‐based OER catalyst using CuO 2 cubes, Rong et al 80 reported porous Cu 3 P@C (Cu 3 P@C‐120) directly synthesized from Cu‐based MOF (Cu‐BDC). The catalyst exhibited remarkable electrocatalytic ability due to the large surface area, porous structure, and the uniformly dispersed Cu 3 P nanoparticles, which exhibited a current density of 10 mA/cm 2 at a low overpotential of 300 mV (Figure 6C,D).…”

Section: Monometallic Mofs As An Oer Electrocatalyst Precursormentioning

confidence: 99%

Metal‐organic frameworks‐derived novel nanostructured electrocatalysts for oxygen evolution reaction

2020

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Engineering cost‐effective catalysts with exceptional performance for the electrochemical oxygen evolution reaction (OER) remains crucial for the accelerated development of renewable energy techniques, and especially so, given the pivotal role of OER in water electrolysis. On the basis of the metal nodes (clusters) and organic linkers, metal‐organic frameworks (MOFs) and their derivatives are rapidly gaining ground in the fabrication of electrocatalysts, with promising catalytic activity and sound durability in OER, thanks to their controllable pore structures, abundant unsaturated active sites of metal ion, extensive specific surface area, as well as easily functionalized/modified surfaces. This review presents an in‐depth understanding of the established progress of MOFs‐derived materials for OER electrocatalysis. The material designing strategies of the pristine, monometallic, and multimetallic MOFs‐based catalysts are summarized to indicate the infinite possibilities of the morphology and the composition of MOF‐derived materials. While emphasis is laid on the essential features of MOF‐derived materials for the electrocatalysis of the corresponding reactions, insights about the applications in OER are discussed. Finally, this paper is concluded by presenting challenges and perspectives for MOF‐derived materials’ future applications in OER electrocatalysis.

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Sea Urchin‐Like MOF‐Derived Formation of Porous Cu₃P@C as an Efficient and Stable Electrocatalyst for Oxygen Evolution and Hydrogen Evolution Reactions

Cited by 57 publications

References 40 publications

“Nano-garden cultivation” for electrocatalysis: controlled synthesis of Nature-inspired hierarchical nanostructures

“Nano-garden cultivation” for electrocatalysis: controlled synthesis of Nature-inspired hierarchical nanostructures

Fe₃O₄@chitosan‐bound boric acid composite as pH‐responsive reusable adsorbent for selective recognition and capture of cis‐diol‐containing shikimic acid

Metal‐organic frameworks‐derived novel nanostructured electrocatalysts for oxygen evolution reaction

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Sea Urchin‐Like MOF‐Derived Formation of Porous Cu3P@C as an Efficient and Stable Electrocatalyst for Oxygen Evolution and Hydrogen Evolution Reactions

Cited by 57 publications

References 40 publications

“Nano-garden cultivation” for electrocatalysis: controlled synthesis of Nature-inspired hierarchical nanostructures

“Nano-garden cultivation” for electrocatalysis: controlled synthesis of Nature-inspired hierarchical nanostructures

Fe3O4@chitosan‐bound boric acid composite as pH‐responsive reusable adsorbent for selective recognition and capture of cis‐diol‐containing shikimic acid

Metal‐organic frameworks‐derived novel nanostructured electrocatalysts for oxygen evolution reaction

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Sea Urchin‐Like MOF‐Derived Formation of Porous Cu₃P@C as an Efficient and Stable Electrocatalyst for Oxygen Evolution and Hydrogen Evolution Reactions

Fe₃O₄@chitosan‐bound boric acid composite as pH‐responsive reusable adsorbent for selective recognition and capture of cis‐diol‐containing shikimic acid