Fabrication of Au–Pd nanoparticles/graphene oxide and their excellent catalytic performance

He, Yueping; Zhang, Nana; Zhang, Lei; Gong, Qiaojuan; Yi, Maocong; Wang, Wei; Qiu, H.; Gao, Jianping

doi:10.1016/j.materresbull.2013.12.043

Cited by 29 publications

(15 citation statements)

References 25 publications

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“…The catalytic activity of our optimized tri-metallic networks is enhanced over bimetallic catalysts42454647525354 as expected. It is also however enhanced over other tri-metallic nanostructures like Au bipyramids@AgPd nanodendrites48.…”

Section: Resultssupporting

confidence: 79%

“…The ratio of the apparent rate constant K app over the total weight of catalyst used is the weight specific activity k = K app / m , which facilitates the comparison with the literature due to the use of different amounts of catalysts (see Table 1)245464748495051. The catalytic activity of our optimized tri-metallic networks is enhanced over bimetallic catalysts42454647525354 as expected.…”

Section: Resultssupporting

confidence: 53%

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Scalable Synthesis of Ag Networks with Optimized Sub-monolayer Au-Pd Nanoparticle Covering for Highly Enhanced SERS Detection and Catalysis

Vongehr

Tang

et al. 2016

Sci Rep

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Highly porous tri-metallic AgxAuyPdz networks with a sub-monolayer bimetallic Au-Pd nanoparticle coating were synthesized via a designed galvanic replacement reaction of Ag nanosponges suspended in mixed solutions of HAuCl4 and K2PdCl4. The resulting networks’ ligaments have a rough surface with bimetallic nanoparticles and nanopores due to removal of Ag. The surface morphology and composition are adjustable by the temperature and mixed solutions’ concentration. Very low combined Au and Pd atomic percentage (1−x) where x is atomic percentage of Ag leads to sub-monolayer nanoparticle coverings allowing a large number of active boundaries, nanopores, and metal-metal interfaces to be accessible. Optimization of the Au/Pd atomic ratio y/z obtains large surface-enhanced Raman scattering detection sensitivity (at y/z = 5.06) and a higher catalytic activity (at y/z = 3.55) toward reduction reactions as benchmarked with 4-nitrophenol than for most bimetallic catalysts. Subsequent optimization of x (at fixed y/z) further increases the catalytic activity to obtain a superior tri-metallic catalyst, which is mainly attributed to the synergy of several aspects including the large porosity, increased surface roughness, accessible interfaces, and hydrogen absorption capacity of nanosized Pd. This work provides a new concept for scalable synthesis and performance optimization of tri-metallic nanostructures.

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Section: Resultssupporting

confidence: 79%

Section: Resultssupporting

confidence: 53%

Scalable Synthesis of Ag Networks with Optimized Sub-monolayer Au-Pd Nanoparticle Covering for Highly Enhanced SERS Detection and Catalysis

Vongehr

Tang

et al. 2016

Sci Rep

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“…Many monometallic and bimetallic nanoparticles such as Au, TiO 2 , ZnO, Pd, Ag, and Au‐Pt have been successfully deposited on graphene oxide. Most recently, graphene oxide supported bimetallic nanoparticles, used as an efficient catalyst for organic conversions …”

Section: Introductionmentioning

confidence: 99%

Design and characterization of Fe₃O₄/GO/Au‐Ag nanocomposite as an efficient catalyst for the green synthesis of spirooxindole‐dihydropyridines

Kavyani

Baharfar

2020

Applied Organom Chemis

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A novel magnetic nanocomposite of Au‐Ag nanoparticles anchored on Fe3O4/graphene oxide spheres (Fe3O4/GO/Au‐Ag) was successfully fabricated by the layer‐by‐layer assembly technique. The prepared Fe3O4/GO/Au‐Ag was fully characterized by Fourier‐transform infrared (FT‐IR) spectroscopy, X‐ray diffraction (XRD) analysis, thermogravimetric analysis (TGA), field‐emission scanning electron microscopy (FE‐SEM), energy‐dispersive x‐ray spectroscopy (EDS), transmission electron microscopy (TEM), and Raman spectroscopy. This nanocomposite showed unique catalytic performance for the synthesis of Spiro[indoline‐3,5′‐pyrido[2,3‐d:6,5‐d’]dipyrimidine]‐pentaone derivatives by the three‐component condensation reaction of isatins, barbituric acids and 6‐amino uracil at room temperature and in aqueous media. The significant advantages of this protocol include highly stable, easily separable and reusable catalyst, simple operation, environmental friendliness and excellent yields.

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“…Recent research has shown that graphene is a promising candidate for the preparation of graphene-based hybrid materials for adsorption and separation of dyes and photocatalytic degradation of dyes due to its high surface area and π-rich structure [7,8]. Indeed, graphene has been successfully decorated with numerous inorganic materials including gold, ZnO, TiO 2 , and Cu salts by various methods, leading to nanocomposites with photocatalytic activity for degradation of dyes [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Facile synthesis of size-tunable CuO/graphene composites and their high photocatalytic performance

Cheng

Wang

Huang

et al. 2015

Materials Research Bulletin

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Fabrication of Au–Pd nanoparticles/graphene oxide and their excellent catalytic performance

Cited by 29 publications

References 25 publications

Scalable Synthesis of Ag Networks with Optimized Sub-monolayer Au-Pd Nanoparticle Covering for Highly Enhanced SERS Detection and Catalysis

Scalable Synthesis of Ag Networks with Optimized Sub-monolayer Au-Pd Nanoparticle Covering for Highly Enhanced SERS Detection and Catalysis

Design and characterization of Fe₃O₄/GO/Au‐Ag nanocomposite as an efficient catalyst for the green synthesis of spirooxindole‐dihydropyridines

Facile synthesis of size-tunable CuO/graphene composites and their high photocatalytic performance

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Fabrication of Au–Pd nanoparticles/graphene oxide and their excellent catalytic performance

Cited by 29 publications

References 25 publications

Scalable Synthesis of Ag Networks with Optimized Sub-monolayer Au-Pd Nanoparticle Covering for Highly Enhanced SERS Detection and Catalysis

Scalable Synthesis of Ag Networks with Optimized Sub-monolayer Au-Pd Nanoparticle Covering for Highly Enhanced SERS Detection and Catalysis

Design and characterization of Fe3O4/GO/Au‐Ag nanocomposite as an efficient catalyst for the green synthesis of spirooxindole‐dihydropyridines

Facile synthesis of size-tunable CuO/graphene composites and their high photocatalytic performance

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Design and characterization of Fe₃O₄/GO/Au‐Ag nanocomposite as an efficient catalyst for the green synthesis of spirooxindole‐dihydropyridines