A facile synthesis of monodisperse cobalt–ruthenium alloy nanoparticles as catalysts for the dehydrogenation of morpholine borane and the hydrogenation of various organic compounds

Can, Hasan; Can, Sümeyra; Ebiri, Rüstem; Metin, Önder

doi:10.1039/d2nj01761j

Cited by 7 publications

(5 citation statements)

References 61 publications

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“…Two satellite peaks at binding energies of 788.4 eV and 804.8 eV show the contribution from the CoO species. 32 These results imply that while Ru is mainly present in a metallic form, Co is present in a higher oxidation state.…”

Section: Resultsmentioning

confidence: 96%

Designing an industrially viable bimetallic catalyst for the polyol synthesis

2023

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Section: Resultsmentioning

confidence: 96%

Designing an industrially viable bimetallic catalyst for the polyol synthesis

2023

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“…[1] For this purpose, scientists have recently attracted much interest in several areas, including electrocatalysis and heterogeneous catalysis. [2] They focused on developing energy conversion and storage solutions that are highly efficient, costeffective, and have minimal environmental impact to meet energy demands. This approach emphasizes low emissions and improved efficiency.…”

Section: Introductionmentioning

confidence: 99%

Bimetallic Nanoalloy Catalysts for Green Energy Production: Advances in Synthesis Routes and Characterization Techniques

Ashraf

Liu

Wei

et al. 2023

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Bimetallic Nanoalloy catalysts have diverse uses in clean energy, sensing, catalysis, biomedicine, and energy storage, with some supported and unsupported catalysts. Conventional synthetic methods for producing bimetallic alloy nanoparticles often produce unalloyed and bulky particles that do not exhibit desired characteristics. Alloys, when prepared with advanced nanoscale methods, give higher surface area, activity, and selectivity than individual metals due to changes in their electronic properties and reduced size. This review demonstrates the synthesis methods and principles to produce and characterize highly dispersed, well‐alloyed bimetallic nanoalloy particles in relatively simple, effective, and generalized approaches and the overall existence of conventional synthetic methods with modifications to prepare bimetallic alloy catalysts. The basic concepts and mechanistic understanding are represented with purposely selected examples. Herein, the enthralling properties with widespread applications of nanoalloy catalysts in heterogeneous catalysis are also presented, especially for Hydrogen Evolution Reaction (HER), Oxidation Reduction Reaction (ORR), Oxygen Evolution Reaction (OER), and alcohol oxidation with a particular focus on Pt and Pd‐based bimetallic nanoalloys and their numerous fields of applications. The high entropy alloy is described as a complicated subject with an emphasis on laser‐based green synthesis of nanoparticles and, in conclusion, the forecasts and contemporary challenges for the controlled synthesis of nanoalloys are addressed.

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“…For this purpose, many studies are carried out with commonly used solid hydrogen storage materials such as ammonia borane [32,33] and dimethylamine borane, [34,35] as well as new derivatives such as ethylene diamine-bisborane, [36][37][38] methylamine borane [39][40][41] and morpholine borane. [42,43] Among them, dimethylamine-borane (Me 2 NHBH 3 , DMAB), which has many properties such as low melting point, high stability, durability, sustainable environmental and economic advantages, is one of the most preferred amine borane derivatives in hydrogen production. [44][45][46] In addition, DMAB, the only chemical hydride with a melting point close to room temperature (∼ 35 °C), can be used as both solvent and hydrogen source.…”

Section: Introductionmentioning

confidence: 99%

“…Although the production, storage and use of hydrogen, which is a promising energy carrier, is still an important problem for industrial applications, all the researches to solve this problem are focused on to obtain alternative amine borane derivatives to be used as solid storage materials with thermal stability, ease of hydrogen release and high hydrogen density. For this purpose, many studies are carried out with commonly used solid hydrogen storage materials such as ammonia borane [32,33] and dimethylamine borane, [34,35] as well as new derivatives such as ethylene diamine‐bisborane, [36–38] methylamine borane [39–41] and morpholine borane [42,43] …”

Section: Introductionmentioning

confidence: 99%

Green Approaches to Dehydrogenation of DMAB Catalyzed by Starch Stabilized Ru(0), Cu(0) and Ni(0) Nanoparticles in the Absence of a Solvent

Duman¹,

Özhava²

2023

ChemistrySelect

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This work covers the results of a detailed study on the in‐situ formation and catalytic use of metal nanoparticles [Ru(0), Ni(0) and Cu(0)] stabilized on starch, a biodegradable and natural polymer, in the absence of a solvent by aiming to develop a green approach providing sustainable system for hydrogen production from the dehydrogenation of dimethylamine borane (DMAB) at about room temperature, 35.0±0.1 °C. All three metals were well‐stabilized on the surface of starch with a particle size about 10.0 nm and highly active, long‐lived in hydrogen production from the dehydrogenation of DMAB at 35.0±0.1 °C with an extraordinary initial TOF and TTON values of 173 h−1 and 23000 TTON for Ru(0); 130 h−1 and 13000 TTON for Cu(0) and 37 h−1 and 4900 TTON for Ni(0) nanoparticles. Starch stabilized metal(0) nanoparticles could be isolated from the solution and characterized by UV‐vis, XRD, TGA, TEM, SEM, EDX, and XPS.

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A facile synthesis of monodisperse cobalt–ruthenium alloy nanoparticles as catalysts for the dehydrogenation of morpholine borane and the hydrogenation of various organic compounds

Abstract: Herein we report a novel wet-chemical protocol for the composition-controlled synthesis of monodisperse cobalt-ruthenium (CoRu) alloy NPs and their catalysis in the hydrolytic dehydrogenation of morpholine borane (MB) for chemical...

Cited by 7 publications

References 61 publications

Designing an industrially viable bimetallic catalyst for the polyol synthesis

Designing an industrially viable bimetallic catalyst for the polyol synthesis

Bimetallic Nanoalloy Catalysts for Green Energy Production: Advances in Synthesis Routes and Characterization Techniques

Green Approaches to Dehydrogenation of DMAB Catalyzed by Starch Stabilized Ru(0), Cu(0) and Ni(0) Nanoparticles in the Absence of a Solvent

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