Partially Pyrolyzed Binary Metal–Organic Framework Nanosheets for Efficient Electrochemical Hydrogen Peroxide Synthesis

Wang, Mengjun; Zhang, Nan; Feng, Yusheng; Hu, Zhiwei; Shao, Qi; Huang, Bolong

doi:10.1002/ange.202006422

Cited by 17 publications

(1 citation statement)

References 39 publications

(38 reference statements)

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“…Its preparation is usually electrocatalytic and photocatalytic methods. The commercial Pt/C‐catalyzed enzymatic reaction for the preparation of hydrogen peroxide has a selectivity of 75 %, which is 30 times higher than the selectivity of hydrogen peroxide in conventional electrocatalytic oxygen reduction reactions [98] …”

Section: Application Of Rhodium‐based Nanozymesmentioning

confidence: 99%

Rhodium‐Based Nanozymes: Recent Advances and Challenges

Dai

Sun

et al. 2023

The Chemical Record

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Rhodium (Rh) is a non‐toxic transition metal used as various nanomaterials with unique structures and properties. Rh‐based nanozymes can mimic the activities of natural enzymes, overcome the limitation of the application scope of natural enzymes, and interact with various biological microenvironments to play a variety of functions. Rh‐based nanozymes can be synthesized in various ways, and different modification and regulation methods can also enable users to control catalytic performance by adjusting enzyme active sites. The construction of Rh‐based nanozymes has attracted great interest in the biomedical field and impacted the industry and other areas. This paper reviews the typical synthesis and modification strategies, unique properties, applications, challenges, and prospects of Rh‐based nanozymes. Next, the unique features of Rh‐based nanozymes are emphasized, including adjustable enzyme‐like activity, stability, and biocompatibility. In addition, we discuss Rh‐based nanozymes biosensors and detection, biomedical therapy, and industrial and other applications. Finally, the future challenges and prospects of Rh‐based nanozymes are proposed.

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Section: Application Of Rhodium‐based Nanozymesmentioning

confidence: 99%

Rhodium‐Based Nanozymes: Recent Advances and Challenges

Dai

Sun

et al. 2023

The Chemical Record

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An Efficient Interfacial Synthesis of Two‐Dimensional Metal–Organic Framework Nanosheets for Electrochemical Hydrogen Peroxide Production

et al. 2021

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Two-dimensional (2D) metal-organic framework nanosheets (MOF NSs) play a vital role in catalysis, but the most preparation is ultrasonication or solvothermal. Herein, a liquid-liquid interfacial synthesis method has been developed for the efficient fabrication of a series of 2D Ni MOF NSs. The active sites could be modulated by readily tuning the ratios of metal precursors and organic linkers (R M/L ). The Ni MOF NSs display highly R M/L dependent activities towards 2e oxygen reduction reaction (ORR) to hydrogen peroxide (H 2 O 2 ), where the Ni MOF NSs with the R M/L of 6 exhibit the optimal nearzero overpotential, ca. 98 % H 2 O 2 selectivity and production rate of ca. 80 mmol g cat À1 h À1 in 0.1 M KOH. As evidenced by X-ray absorption fine structure spectroscopy, the coordination environment of active sites changed from saturation to unsaturation, and the partially unsaturated metal atoms are crucial to create optimal sites for enhancing the electrocatalysis.

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Selective Electrocatalytic Reduction of Oxygen to Hydroxyl Radicals via 3‐Electron Pathway with FeCo Alloy Encapsulated Carbon Aerogel for Fast and Complete Removing Pollutants

et al. 2021

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We reported the selective electrochemical reduction of oxygen (O 2 )t oh ydroxylr adicals (COH) via 3-electron pathway with FeCo alloye ncapsulated by carbon aerogel (FeCoC). The graphite shell with exposed -COOH is conducive to the 2-electron reduction pathway for H 2 O 2 generation stepped by 1-electron reduction towardst oCOH. The electrocatalytic activity can be regulated by tuning the local electronic environment of carbon shell with the electrons coming from the inner FeCo alloy. The new strategy of COH generation from electrocatalytic reduction O 2 overcomes the rate-limiting step over electron transfer initiated by reduction-/oxidation-state cycle in Fenton process.F ast and complete removal of ciprofloxacin was achieved within 5min in this proposed system, the apparent rate constant (k obs )w as up to 1.44 AE 0.04 min À1 ,w hich is comparable with the state-of-the-art advanced oxidation processes.T he degradation rate almost remains the same after 50 successive runs,s uggesting the satisfactory stability for practical applications.

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Partially Pyrolyzed Binary Metal–Organic Framework Nanosheets for Efficient Electrochemical Hydrogen Peroxide Synthesis

Cited by 17 publications

References 39 publications

Rhodium‐Based Nanozymes: Recent Advances and Challenges

Rhodium‐Based Nanozymes: Recent Advances and Challenges

An Efficient Interfacial Synthesis of Two‐Dimensional Metal–Organic Framework Nanosheets for Electrochemical Hydrogen Peroxide Production

Selective Electrocatalytic Reduction of Oxygen to Hydroxyl Radicals via 3‐Electron Pathway with FeCo Alloy Encapsulated Carbon Aerogel for Fast and Complete Removing Pollutants

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