Oxidation of Ethanol to Acetic Acid by Supported PtCu Nanoparticles Stabilized by a Diamine Ligand

Oberhauser, Werner; Poggini, Lorenzo; Capozzoli, Laura; Bellini, Marco; Filippi, Jonathan; Vizza, Francesco

doi:10.1021/acs.inorgchem.2c04202

Cited by 3 publications

(3 citation statements)

References 38 publications

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“…It exhibited good stability at 0.45 V for 1200 s, maintaining specific activity and mass activity of 0.25 mA cm −2 and 124 mA mg −1 , respectively. Oberhauser et al synthesized Diamine-stabilized PtCu nanoparticles featuring a Pt:Cu (1:1) core and a Cu-enriched surface (Pt:Cu, 1:2) via the simultaneous reduction of a 1:1 mixture of Pt(II) and Cu(II) bisimine complexes using hydrogen [117]. The diamine ligand, with C 16 -alkyl chains, exhibits strong hydrophobic properties and interacts through secondary amine functionalities with surface Pt(0) and M(II)-OH (M = Pt, Cu) sites, catalyzing EOR to acetic acid with exceptionally low Pt loading of 0.34 wt%.…”

Section: Ethanol (C2)mentioning

confidence: 99%

Recent Advances of PtCu Alloy in Electrocatalysis: Innovations and Applications

Shen,

Tang,

Shen

2024

Catalysts

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Developing highly active and durable platinum-based catalysts is crucial for electrochemical renewable energy conversion technologies but the limited supply and high cost of platinum have hindered their widespread implementation. The incorporation of non-noble metals, particularly copper, into Pt catalysts has been demonstrated as an effective solution to reduce Pt consumption while further promoting their performance, making them promising for various electrocatalytic reactions. This review summarizes the latest advances in PtCu-based alloy catalysts over the past several years from both synthetic and applied perspectives. In the synthesis section, the selection of support and reagents, synthesis routes, as well as post-treatment methods at high temperatures are reviewed. The application section focuses not only on newly proposed electrochemical reactions such as nitrogen-related reactions and O2 reduction but also extends to device-level applications. The discussion in this review aims to provide further insights and guidance for the development of PtCu electrocatalysts for practical applications.

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Section: Ethanol (C2)mentioning

confidence: 99%

Recent Advances of PtCu Alloy in Electrocatalysis: Innovations and Applications

Shen,

Tang,

Shen

2024

Catalysts

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“…In current research, the reaction temperatures for activated alcohols [7,18,19] typically fall within the range of 25-90 • C. The alcohol-to-metal molar ratios in these reactions vary from 200 to 8000, and turnover frequencies (TOFs) typically range from 200 to 12,000 h −1 . In contrast, reactions involving non-activated aliphatic alcohols [3,[20][21][22][23] typically occur at temperatures between 55 and 160 • C. The alcohol-to-metal molar ratios in these reactions range from 10 to 2000, and the TOF values, which are roughly estimated based on the corresponding activity, generally fall between 2 and 500 h −1 .…”

Section: Introductionmentioning

confidence: 99%

“…The leaching of the basic sites was not significant after two cycles of the catalysts. Wang [25] and Oberhanser [23] and their co-workers complexed pyrrolidone and diamine with metal particles to enhance the catalytic activity of alcohols, respectively. The ligand modification increased the alcohol oxidation activity by more than 30%.…”

Section: Introductionmentioning

confidence: 99%

One-Step Hydrothermal/Solvothermal Preparation of Pt/TiO2: An Efficient Catalyst for Biobutanol Oxidation at Room Temperature

Lei,

Cao,

et al. 2024

Molecules

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The selective oxidation of biobutanol to prepare butyric acid is an important conversion process, but the preparation of low-temperature and efficient catalysts for butanol oxidation is currently a bottleneck problem. In this work, we prepared Pt-TiO2 catalysts with different Pt particle sizes using a simple one-step hydrothermal/solvothermal method. Transmission electron microscopy and X-ray diffraction results showed that the average size of the Pt particles ranged from 1.1 nm to 8.7 nm. Among them, Pt-TiO2 with an average particle size of 3.6 nm exhibited the best catalytic performance for biobutanol. It was capable of almost completely converting butanol, even at room temperature (30 °C), with a 98.9% biobutanol conversion, 98.4% butyric acid selectivity, and a turnover frequency (TOF) of 36 h−1. Increasing the reaction temperature to 80 and 90 °C, the corresponding TOFs increased rapidly to 355 and 619 h−1. The relationship between the electronic structure of Pt and its oxidative performance suggests that the synergistic effect of the dual sites, Pt0 and Pt2+, could be the primary factor contributing to its elevated reactivity.

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Aerobic oxidation of diols to acetic acid in water

Oberhauser¹

2023

Results in Chemistry

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Oxidation of Ethanol to Acetic Acid by Supported PtCu Nanoparticles Stabilized by a Diamine Ligand

Cited by 3 publications

References 38 publications

Recent Advances of PtCu Alloy in Electrocatalysis: Innovations and Applications

Recent Advances of PtCu Alloy in Electrocatalysis: Innovations and Applications

One-Step Hydrothermal/Solvothermal Preparation of Pt/TiO2: An Efficient Catalyst for Biobutanol Oxidation at Room Temperature

Aerobic oxidation of diols to acetic acid in water

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