Direct Synthesis of Spatially-Controlled Pt-on-Pd Bimetallic Nanodendrites with Superior Electrocatalytic Activity

Wang, Liang; Nemoto, Y.; Yamauchi, Yusuke

doi:10.1021/ja202655j

Cited by 512 publications

(395 citation statements)

References 30 publications

(51 reference statements)

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“…Pd@Pt NDs with nominal Pd:Pt molar ratio of 2:1 are synthesized via a one-step method with modification [19]. In the presence of Pluronic ® F127 (PEO 106 PPO 70 PEO 106 , Sigma Aldrich), Na 2 PdCl 4 and K 2 PtCl 4 were successively reduced by ascorbic acid (AA) at room temperature in aqueous solutions for 12 h. The Pd@Pt NDs obtained were then supported onto hydrogen peroxide pre-treated XC-72R carbon blacks [20] with metal loading of 20% by adding carbon blacks into the as-prepared Pd@Pt NDs colloid and stirring the mixture overnight.…”

Section: Synthesis Of Pd@pt Ndsmentioning

confidence: 99%

Electrochemical preparation and characterization of PdPt nanocages with improved electrocatalytic activity toward oxygen reduction reaction

Zhang

Shao

et al. 2013

Electrochimica Acta

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Section: Synthesis Of Pd@pt Ndsmentioning

confidence: 99%

Electrochemical preparation and characterization of PdPt nanocages with improved electrocatalytic activity toward oxygen reduction reaction

Zhang

Shao

et al. 2013

Electrochimica Acta

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“…A solution to enhancement the electrocatalytic properties is to mix the Pt with other elements or deposited on different supports 12 . Among Pt-based catalysts, Pt-Pd is one of the most attractive bimetallic systems due to its application as electrocatalyst in fuel cells [13][14][15] and various applications including hydrogenation [16][17] and oxidation of organic compounds 18 . Several studies have been carried out about the synthesis and electrocatalytic properties of the Pt-Pd bimetallic NPs [19][20][21][22] ; these bimetallic NPs can be produced generally , and spectroscopy data can be obtained either simultaneously or sequentially from the same region of the specimen 25 .…”

Section: Introductionmentioning

confidence: 99%

Study of PtPd Bimetallic Nanoparticles for Fuel Cell Applications

et al. 2017

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Bimetallic nanoparticles are of special interest for their potential applications for fuel cells, mainly for portable power applications. Among the bimetallic systems, Pt-Pd bimetallic nanoparticles have received great interest as they can be widely used as effective catalysts for various electrochemical reactions. In this work, Pt-Pd alloy bimetallic nanoparticles were synthesized through a chemical reduction method. The nanoparticles were characterized using aberration-corrected scanning/transmission electron microscopy (STEM). Also, parallel beam X-Ray diffraction analysis was carried out to evaluate the crystallographic structure. High-angle annular dark field (HAADF)-STEM images of the Pt-Pd bimetallic nanoparticles were obtained. The contrast of the images shows that the nanoparticles have an alloy structure with an average size of 7.15 nm. To understand the properties of the bimetallic nanoparticles, it is necessary to know the distribution of the elements in the nanostructure. We have used a semi-quantitative method to analyze the HAADF-STEM images, which allowed us to measure the total intensity of the scattered electrons for each atomic column. HAADF-STEM images of the Pt-Pd bimetallic nanoparticles were compared directly with image simulations, good agreement between simulation and experimental images was found. Cyclic voltammetry studies were carried out to analyze the electrochemical behavior of the bimetallic nanoparticles.

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“…This special nanostructure can give rise to more catalytically active sites, such as boundaries and corner atoms, providing a high surface area in catalytic reactions. For example, the PdPt nanodendrites were acquired by following a facile aqueous synthetic method reported by Zhou et al [6], Yamauchi et al [11], and Zhang et al [30]. Regretfully, the catalytic performance toward methanol oxidation reaction (MOR) is far from meeting the application demands owing to the inapparent dendritic structure [6] and relatively large particle size [30].…”

Section: Introductionmentioning

confidence: 99%

One-step synthesis of the PdPt bimetallic nanodendrites with controllable composition for methanol oxidation reaction

Zhang

Chen

et al. 2018

Sci. China Mater.

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This paper demonstrates a one-pot approach to produce highly dispersed dendritic palladium-platinum bimetallic nanoparticles (NPs) with small particle size, tunable composition and high catalytic activity. Herein, the PdPt bimetallic NPs have been obtained using bayberry tannin (BT) as both the reducing agent and surfactant. Additionally, the PdPt bimetallic NPs with different Pd/Pt atomic ratios can be prepared by just varying the amounts of the Pd and Pt precursors. Most importantly, the as-prepared Pd 52 Pt 48 catalyst exhibits the optimal catalytic activities compared with the other compositional PdPt NPs (Pd 82 Pt 18 , Pd 69 Pt 31 , and Pd 36 Pt 64 ) and commercial Pt/C (20 wt.%) catalyst for the methanol oxidation reaction (MOR). Meanwhile, Pd 52 Pt 48 also shows better CO tolerance, which can be attributed to the unique dendritic structure and the synergistic effect between Pd and Pt. With evident advantages of the facile preparation and enhanced catalytic performance, it holds great promise as a high-performance catalyst for electrochemical energy conversion.

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Direct Synthesis of Spatially-Controlled Pt-on-Pd Bimetallic Nanodendrites with Superior Electrocatalytic Activity

Cited by 512 publications

References 30 publications

Electrochemical preparation and characterization of PdPt nanocages with improved electrocatalytic activity toward oxygen reduction reaction

Electrochemical preparation and characterization of PdPt nanocages with improved electrocatalytic activity toward oxygen reduction reaction

Study of PtPd Bimetallic Nanoparticles for Fuel Cell Applications

One-step synthesis of the PdPt bimetallic nanodendrites with controllable composition for methanol oxidation reaction

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