Synthesis of Olive-Shaped Mesoporous Platinum Nanoparticles (MPNs) with a Hard-Templating Method Using Mesoporous Silica (SBA-15)

Well‐ordered mesoporous Pt nanoparticles (MPNs) with uniform olive shapes are synthesized by using two‐dimensional (2D) hexagonal mesoporous silica (SBA‐15) as a hard template. The average particle sizes are controllable in the range of 150 to 230 nm by changing the reduction time. Low‐angle XRD pro...

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Veröffentlicht in:	Chemistry, an Asian journal an Asian journal, 2012-04, Vol.7 (4), p.802-808
Hauptverfasser:	Wang, Hongjing, Imura, Masataka, Nemoto, Yoshihiro, Park, Sang-Eon, Yamauchi, Yusuke
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Sprache:	eng
Schlagworte:	Chemistry mesoporous materials Nanoparticles platinum Porous materials replication Silica template synthesis
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creator	Wang, Hongjing Imura, Masataka Nemoto, Yoshihiro Park, Sang-Eon Yamauchi, Yusuke
description	Well‐ordered mesoporous Pt nanoparticles (MPNs) with uniform olive shapes are synthesized by using two‐dimensional (2D) hexagonal mesoporous silica (SBA‐15) as a hard template. The average particle sizes are controllable in the range of 150 to 230 nm by changing the reduction time. Low‐angle XRD profiles for the obtained MPNs show three distinct peaks assignable to the (10), (11), and (20) planes of a highly ordered 2D hexagonal symmetry. From high‐magnification SEM images, periodically arranged Pt nanowires are observed clearly, which are a negative replica of the 2D hexagonally ordered mesoporous silica (SBA‐15). Furthermore, the single crystallinity of the Pt fcc structure coherently extends over the whole particles. As a result of such unique character as well as high surface area, the obtained MPNs show distinctly enhanced electrocatalytic properties for methanol oxidation reaction compared to other Pt samples, such as Pt black. Antipasti, anyone? Well‐ordered olive‐shaped mesoporous Pt nanoparticles (see picture) can be prepared by using two‐dimensional (2D) hexagonal mesoporous silica (SBA‐15) as a hard template. The average particle sizes are controllable in the range of 150 nm to 230 nm by changing the deposition time.
doi_str_mv	10.1002/asia.201100949
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The average particle sizes are controllable in the range of 150 to 230 nm by changing the reduction time. Low‐angle XRD profiles for the obtained MPNs show three distinct peaks assignable to the (10), (11), and (20) planes of a highly ordered 2D hexagonal symmetry. From high‐magnification SEM images, periodically arranged Pt nanowires are observed clearly, which are a negative replica of the 2D hexagonally ordered mesoporous silica (SBA‐15). Furthermore, the single crystallinity of the Pt fcc structure coherently extends over the whole particles. As a result of such unique character as well as high surface area, the obtained MPNs show distinctly enhanced electrocatalytic properties for methanol oxidation reaction compared to other Pt samples, such as Pt black. Antipasti, anyone? Well‐ordered olive‐shaped mesoporous Pt nanoparticles (see picture) can be prepared by using two‐dimensional (2D) hexagonal mesoporous silica (SBA‐15) as a hard template. 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Asian J</addtitle><description>Well‐ordered mesoporous Pt nanoparticles (MPNs) with uniform olive shapes are synthesized by using two‐dimensional (2D) hexagonal mesoporous silica (SBA‐15) as a hard template. The average particle sizes are controllable in the range of 150 to 230 nm by changing the reduction time. Low‐angle XRD profiles for the obtained MPNs show three distinct peaks assignable to the (10), (11), and (20) planes of a highly ordered 2D hexagonal symmetry. From high‐magnification SEM images, periodically arranged Pt nanowires are observed clearly, which are a negative replica of the 2D hexagonally ordered mesoporous silica (SBA‐15). Furthermore, the single crystallinity of the Pt fcc structure coherently extends over the whole particles. As a result of such unique character as well as high surface area, the obtained MPNs show distinctly enhanced electrocatalytic properties for methanol oxidation reaction compared to other Pt samples, such as Pt black. Antipasti, anyone? Well‐ordered olive‐shaped mesoporous Pt nanoparticles (see picture) can be prepared by using two‐dimensional (2D) hexagonal mesoporous silica (SBA‐15) as a hard template. 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Asian J</addtitle><date>2012-04</date><risdate>2012</risdate><volume>7</volume><issue>4</issue><spage>802</spage><epage>808</epage><pages>802-808</pages><issn>1861-4728</issn><eissn>1861-471X</eissn><abstract>Well‐ordered mesoporous Pt nanoparticles (MPNs) with uniform olive shapes are synthesized by using two‐dimensional (2D) hexagonal mesoporous silica (SBA‐15) as a hard template. The average particle sizes are controllable in the range of 150 to 230 nm by changing the reduction time. Low‐angle XRD profiles for the obtained MPNs show three distinct peaks assignable to the (10), (11), and (20) planes of a highly ordered 2D hexagonal symmetry. From high‐magnification SEM images, periodically arranged Pt nanowires are observed clearly, which are a negative replica of the 2D hexagonally ordered mesoporous silica (SBA‐15). Furthermore, the single crystallinity of the Pt fcc structure coherently extends over the whole particles. As a result of such unique character as well as high surface area, the obtained MPNs show distinctly enhanced electrocatalytic properties for methanol oxidation reaction compared to other Pt samples, such as Pt black. Antipasti, anyone? Well‐ordered olive‐shaped mesoporous Pt nanoparticles (see picture) can be prepared by using two‐dimensional (2D) hexagonal mesoporous silica (SBA‐15) as a hard template. The average particle sizes are controllable in the range of 150 nm to 230 nm by changing the deposition time.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><pmid>22298380</pmid><doi>10.1002/asia.201100949</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Chemistry mesoporous materials Nanoparticles platinum Porous materials replication Silica template synthesis
title	Synthesis of Olive-Shaped Mesoporous Platinum Nanoparticles (MPNs) with a Hard-Templating Method Using Mesoporous Silica (SBA-15)
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