Au–Pt bimetallic nanoparticles supported on nest-like MnO2: synthesis and application in HCHO decomposition

Facile synthesis of Au–Pt bimetallic nanoparticles (Au 1− x Pt x NPs) and mixtures of Au NPs and Pt NPs ((100 % − y )Au/ y Pt NPs) and their subsequent deposition on nest-like MnO 2 nanostructures were presented. The as-prepared products were characterized by means of UV–visible spectroscopy, X-ray...

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Published in	Journal of nanoparticle research : an interdisciplinary forum for nanoscale science and technology Vol. 14; no. 11; p. 1
Main Authors	Yu, Xuehua, He, Junhui, Wang, Donghui, Hu, Yucai, Tian, Hua, Dong, Tongxin, He, Zhicheng
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.11.2012 Springer Nature B.V
Subjects	Characterization and Evaluation of Materials Chemistry and Materials Science Decomposition Formaldehyde Inorganic Chemistry Lasers Materials Science Metals Nanoparticles Nanotechnology Optical Devices Optics Photonics Physical Chemistry Research Paper Spectroscopy Synergistic effect X-ray diffraction Au–Pt bimetallic NPs Au Pt Catalytic performance Formaldehyde MnO
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Abstract	Facile synthesis of Au–Pt bimetallic nanoparticles (Au 1− x Pt x NPs) and mixtures of Au NPs and Pt NPs ((100 % − y )Au/ y Pt NPs) and their subsequent deposition on nest-like MnO 2 nanostructures were presented. The as-prepared products were characterized by means of UV–visible spectroscopy, X-ray diffraction, scanning and transmission electron microscopy, and energy dispersive spectroscopy. TEM analyses showed that noble metal NPs were evenly dispersed on the surface of nest-like MnO 2 nanostructures and no agglomeration was observed. The as-prepared metal NPs supported catalysts showed higher catalytic activities than MnO 2 nanostructures for oxidative decomposition of formaldehyde (HCHO). The forms of noble metal NPs and Au/Pt molar ratio have significant effects on the catalytic performance, and Au 0.5 Pt 0.5 /MnO 2 has the highest catalytic activity among all the as-prepared metal NPs supported MnO 2 catalysts, and the temperature for complete decomposition of HCHO reached as low as 313 K. The high catalytic activities of Au 1− x Pt x /MnO 2 catalysts resulted from the synergistic effect between Au 1− x Pt x NPs and MnO 2 nanostructure, as well as the synergistic effect between Au and Pt. The current Au 1− x Pt x /MnO 2 catalysts are among the first trials to apply bimetallic NP-supported catalysts to the decomposition of HCHO, and proved that the Au 1− x Pt x /MnO 2 catalysts are promising for indoor decomposition of formaldehyde due to their easy synthesis, low cost, and excellent catalytic performance.
AbstractList	Facile synthesis of Au-Pt bimetallic nanoparticles (Au^sub 1-x^Pt^sub x^ NPs) and mixtures of Au NPs and Pt NPs ((100 % - y)Au/yPt NPs) and their subsequent deposition on nest-like MnO2 nanostructures were presented. The as-prepared products were characterized by means of UV-visible spectroscopy, X-ray diffraction, scanning and transmission electron microscopy, and energy dispersive spectroscopy. TEM analyses showed that noble metal NPs were evenly dispersed on the surface of nest-like MnO2 nanostructures and no agglomeration was observed. The as-prepared metal NPs supported catalysts showed higher catalytic activities than MnO2 nanostructures for oxidative decomposition of formaldehyde (HCHO). The forms of noble metal NPs and Au/Pt molar ratio have significant effects on the catalytic performance, and Au^sub 0.5^Pt^sub 0.5^/MnO2 has the highest catalytic activity among all the as-prepared metal NPs supported MnO2 catalysts, and the temperature for complete decomposition of HCHO reached as low as 313 K. The high catalytic activities of Au^sub 1-x^Pt^sub x^/MnO2 catalysts resulted from the synergistic effect between Au^sub 1-x^Pt^sub x^ NPs and MnO2 nanostructure, as well as the synergistic effect between Au and Pt. The current Au^sub 1-x^Pt^sub x^/MnO2 catalysts are among the first trials to apply bimetallic NP-supported catalysts to the decomposition of HCHO, and proved that the Au^sub 1-x^Pt^sub x^/MnO2 catalysts are promising for indoor decomposition of formaldehyde due to their easy synthesis, low cost, and excellent catalytic performance.[PUBLICATION ABSTRACT] Facile synthesis of Au–Pt bimetallic nanoparticles (Au 1− x Pt x NPs) and mixtures of Au NPs and Pt NPs ((100 % − y )Au/ y Pt NPs) and their subsequent deposition on nest-like MnO 2 nanostructures were presented. The as-prepared products were characterized by means of UV–visible spectroscopy, X-ray diffraction, scanning and transmission electron microscopy, and energy dispersive spectroscopy. TEM analyses showed that noble metal NPs were evenly dispersed on the surface of nest-like MnO 2 nanostructures and no agglomeration was observed. The as-prepared metal NPs supported catalysts showed higher catalytic activities than MnO 2 nanostructures for oxidative decomposition of formaldehyde (HCHO). The forms of noble metal NPs and Au/Pt molar ratio have significant effects on the catalytic performance, and Au 0.5 Pt 0.5 /MnO 2 has the highest catalytic activity among all the as-prepared metal NPs supported MnO 2 catalysts, and the temperature for complete decomposition of HCHO reached as low as 313 K. The high catalytic activities of Au 1− x Pt x /MnO 2 catalysts resulted from the synergistic effect between Au 1− x Pt x NPs and MnO 2 nanostructure, as well as the synergistic effect between Au and Pt. The current Au 1− x Pt x /MnO 2 catalysts are among the first trials to apply bimetallic NP-supported catalysts to the decomposition of HCHO, and proved that the Au 1− x Pt x /MnO 2 catalysts are promising for indoor decomposition of formaldehyde due to their easy synthesis, low cost, and excellent catalytic performance.
ArticleNumber	1260
Author	Wang, Donghui Tian, Hua Dong, Tongxin He, Junhui Yu, Xuehua Hu, Yucai He, Zhicheng
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Keywords	Au–Pt bimetallic NPs Au Pt Catalytic performance Formaldehyde MnO
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SubjectTerms	Characterization and Evaluation of Materials Chemistry and Materials Science Decomposition Formaldehyde Inorganic Chemistry Lasers Materials Science Metals Nanoparticles Nanotechnology Optical Devices Optics Photonics Physical Chemistry Research Paper Spectroscopy Synergistic effect X-ray diffraction
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Title	Au–Pt bimetallic nanoparticles supported on nest-like MnO2: synthesis and application in HCHO decomposition
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