Reverse micelle synthesis and characterization of supported Pt/Ni bimetallic catalysts on γ-Al2O3
Reverse micelle synthesis was used to improve the nanoparticle size uniformity of bimetallic Pt/Ni nanoparticles supported on {gamma}-Al{sub 2}O{sub 3}. Two impregnation methods were investigated to optimize the use of the micelle method: (1) step-impregnation, where Ni nanoparticles were chemically...
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| Veröffentlicht in: | Applied catalysis. A, General General, 2011-02, Vol.394 (1-2), p.41-47 |
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| creator | CHENEY, Beth A LAUTERBACH, Jochen A CHEN, Jingguang G |
| description | Reverse micelle synthesis was used to improve the nanoparticle size uniformity of bimetallic Pt/Ni nanoparticles supported on {gamma}-Al{sub 2}O{sub 3}. Two impregnation methods were investigated to optimize the use of the micelle method: (1) step-impregnation, where Ni nanoparticles were chemically reduced in microemulsion and then supported, followed by Pt deposition using incipient wetness impregnation, and (2) co-impregnation, where Ni and Pt were chemically reduced simultaneously in microemulsion and then supported. Transmission electron microscopy (TEM) was used to characterize the particle size distribution. Atomic absorption spectroscopy (AAS) was used to perform elemental analysis of bimetallic catalysts. Extended X-ray absorption fine structure (EXAFS) measurements were utilized to confirm the formation of the Pt-Ni bimetallic bond in the step-impregnated catalyst. CO pulse chemisorption and Fourier transform infrared spectroscopy (FTIR) studies of 1,3-butadiene hydrogenation in a batch reactor were performed to determine the catalytic activity. Step-impregnated Pt/Ni catalyst demonstrated enhanced hydrogenation activity over the parent monometallic Pt and Ni catalysts due to bimetallic bond formation. The catalyst synthesized using co-impregnation showed no enhanced activity, behaving similarly to monometallic Ni. Overall, our results indicate that reverse micelle synthesis combined with incipient wetness impregnation produced small, uniform nanoparticles with bimetallic bonds that enhanced hydrogenation activity. |
| doi_str_mv | 10.1016/j.apcata.2010.12.021 |
| format | Article |
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Two impregnation methods were investigated to optimize the use of the micelle method: (1) step-impregnation, where Ni nanoparticles were chemically reduced in microemulsion and then supported, followed by Pt deposition using incipient wetness impregnation, and (2) co-impregnation, where Ni and Pt were chemically reduced simultaneously in microemulsion and then supported. Transmission electron microscopy (TEM) was used to characterize the particle size distribution. Atomic absorption spectroscopy (AAS) was used to perform elemental analysis of bimetallic catalysts. Extended X-ray absorption fine structure (EXAFS) measurements were utilized to confirm the formation of the Pt-Ni bimetallic bond in the step-impregnated catalyst. CO pulse chemisorption and Fourier transform infrared spectroscopy (FTIR) studies of 1,3-butadiene hydrogenation in a batch reactor were performed to determine the catalytic activity. Step-impregnated Pt/Ni catalyst demonstrated enhanced hydrogenation activity over the parent monometallic Pt and Ni catalysts due to bimetallic bond formation. The catalyst synthesized using co-impregnation showed no enhanced activity, behaving similarly to monometallic Ni. Overall, our results indicate that reverse micelle synthesis combined with incipient wetness impregnation produced small, uniform nanoparticles with bimetallic bonds that enhanced hydrogenation activity.</description><identifier>ISSN: 0926-860X</identifier><identifier>EISSN: 1873-3875</identifier><identifier>DOI: 10.1016/j.apcata.2010.12.021</identifier><language>eng</language><publisher>Kidlington: Elsevier</publisher><subject>ABSORPTION SPECTROSCOPY ; Catalysis ; CATALYSTS ; CHEMISORPTION ; Chemistry ; Colloidal state and disperse state ; DEPOSITION ; DISTRIBUTION ; Emulsions. Microemulsions. Foams ; Exact sciences and technology ; FINE STRUCTURE ; General and physical chemistry ; HYDROGENATION ; IMPREGNATION ; INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY ; MICELLAR SYSTEMS ; Micelles. Thin films ; MICROEMULSIONS ; NICKEL ; PARTICLE SIZE ; Physical and chemical studies. Granulometry. Electrokinetic phenomena ; PLATINUM ; SIZE ; SPECTROSCOPY ; SYNTHESIS ; Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry ; TRANSMISSION ELECTRON MICROSCOPY ; USES</subject><ispartof>Applied catalysis. 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A, General</title><description>Reverse micelle synthesis was used to improve the nanoparticle size uniformity of bimetallic Pt/Ni nanoparticles supported on {gamma}-Al{sub 2}O{sub 3}. Two impregnation methods were investigated to optimize the use of the micelle method: (1) step-impregnation, where Ni nanoparticles were chemically reduced in microemulsion and then supported, followed by Pt deposition using incipient wetness impregnation, and (2) co-impregnation, where Ni and Pt were chemically reduced simultaneously in microemulsion and then supported. Transmission electron microscopy (TEM) was used to characterize the particle size distribution. Atomic absorption spectroscopy (AAS) was used to perform elemental analysis of bimetallic catalysts. Extended X-ray absorption fine structure (EXAFS) measurements were utilized to confirm the formation of the Pt-Ni bimetallic bond in the step-impregnated catalyst. CO pulse chemisorption and Fourier transform infrared spectroscopy (FTIR) studies of 1,3-butadiene hydrogenation in a batch reactor were performed to determine the catalytic activity. Step-impregnated Pt/Ni catalyst demonstrated enhanced hydrogenation activity over the parent monometallic Pt and Ni catalysts due to bimetallic bond formation. The catalyst synthesized using co-impregnation showed no enhanced activity, behaving similarly to monometallic Ni. Overall, our results indicate that reverse micelle synthesis combined with incipient wetness impregnation produced small, uniform nanoparticles with bimetallic bonds that enhanced hydrogenation activity.</description><subject>ABSORPTION SPECTROSCOPY</subject><subject>Catalysis</subject><subject>CATALYSTS</subject><subject>CHEMISORPTION</subject><subject>Chemistry</subject><subject>Colloidal state and disperse state</subject><subject>DEPOSITION</subject><subject>DISTRIBUTION</subject><subject>Emulsions. Microemulsions. Foams</subject><subject>Exact sciences and technology</subject><subject>FINE STRUCTURE</subject><subject>General and physical chemistry</subject><subject>HYDROGENATION</subject><subject>IMPREGNATION</subject><subject>INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY</subject><subject>MICELLAR SYSTEMS</subject><subject>Micelles. Thin films</subject><subject>MICROEMULSIONS</subject><subject>NICKEL</subject><subject>PARTICLE SIZE</subject><subject>Physical and chemical studies. Granulometry. Electrokinetic phenomena</subject><subject>PLATINUM</subject><subject>SIZE</subject><subject>SPECTROSCOPY</subject><subject>SYNTHESIS</subject><subject>Theory of reactions, general kinetics. Catalysis. 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Microemulsions. Foams</topic><topic>Exact sciences and technology</topic><topic>FINE STRUCTURE</topic><topic>General and physical chemistry</topic><topic>HYDROGENATION</topic><topic>IMPREGNATION</topic><topic>INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY</topic><topic>MICELLAR SYSTEMS</topic><topic>Micelles. Thin films</topic><topic>MICROEMULSIONS</topic><topic>NICKEL</topic><topic>PARTICLE SIZE</topic><topic>Physical and chemical studies. Granulometry. Electrokinetic phenomena</topic><topic>PLATINUM</topic><topic>SIZE</topic><topic>SPECTROSCOPY</topic><topic>SYNTHESIS</topic><topic>Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry</topic><topic>TRANSMISSION ELECTRON MICROSCOPY</topic><topic>USES</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>CHENEY, Beth A</creatorcontrib><creatorcontrib>LAUTERBACH, Jochen A</creatorcontrib><creatorcontrib>CHEN, Jingguang G</creatorcontrib><creatorcontrib>BROOKHAVEN NATIONAL LABORATORY (BNL)</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>OSTI.GOV</collection><jtitle>Applied catalysis. A, General</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>CHENEY, Beth A</au><au>LAUTERBACH, Jochen A</au><au>CHEN, Jingguang G</au><aucorp>BROOKHAVEN NATIONAL LABORATORY (BNL)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Reverse micelle synthesis and characterization of supported Pt/Ni bimetallic catalysts on γ-Al2O3</atitle><jtitle>Applied catalysis. A, General</jtitle><date>2011-02-28</date><risdate>2011</risdate><volume>394</volume><issue>1-2</issue><spage>41</spage><epage>47</epage><pages>41-47</pages><issn>0926-860X</issn><eissn>1873-3875</eissn><abstract>Reverse micelle synthesis was used to improve the nanoparticle size uniformity of bimetallic Pt/Ni nanoparticles supported on {gamma}-Al{sub 2}O{sub 3}. Two impregnation methods were investigated to optimize the use of the micelle method: (1) step-impregnation, where Ni nanoparticles were chemically reduced in microemulsion and then supported, followed by Pt deposition using incipient wetness impregnation, and (2) co-impregnation, where Ni and Pt were chemically reduced simultaneously in microemulsion and then supported. Transmission electron microscopy (TEM) was used to characterize the particle size distribution. Atomic absorption spectroscopy (AAS) was used to perform elemental analysis of bimetallic catalysts. Extended X-ray absorption fine structure (EXAFS) measurements were utilized to confirm the formation of the Pt-Ni bimetallic bond in the step-impregnated catalyst. CO pulse chemisorption and Fourier transform infrared spectroscopy (FTIR) studies of 1,3-butadiene hydrogenation in a batch reactor were performed to determine the catalytic activity. Step-impregnated Pt/Ni catalyst demonstrated enhanced hydrogenation activity over the parent monometallic Pt and Ni catalysts due to bimetallic bond formation. The catalyst synthesized using co-impregnation showed no enhanced activity, behaving similarly to monometallic Ni. Overall, our results indicate that reverse micelle synthesis combined with incipient wetness impregnation produced small, uniform nanoparticles with bimetallic bonds that enhanced hydrogenation activity.</abstract><cop>Kidlington</cop><pub>Elsevier</pub><doi>10.1016/j.apcata.2010.12.021</doi><tpages>7</tpages></addata></record> |
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| ispartof | Applied catalysis. A, General, 2011-02, Vol.394 (1-2), p.41-47 |
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| source | Elsevier ScienceDirect Journals |
| subjects | ABSORPTION SPECTROSCOPY Catalysis CATALYSTS CHEMISORPTION Chemistry Colloidal state and disperse state DEPOSITION DISTRIBUTION Emulsions. Microemulsions. Foams Exact sciences and technology FINE STRUCTURE General and physical chemistry HYDROGENATION IMPREGNATION INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY MICELLAR SYSTEMS Micelles. Thin films MICROEMULSIONS NICKEL PARTICLE SIZE Physical and chemical studies. Granulometry. Electrokinetic phenomena PLATINUM SIZE SPECTROSCOPY SYNTHESIS Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry TRANSMISSION ELECTRON MICROSCOPY USES |
| title | Reverse micelle synthesis and characterization of supported Pt/Ni bimetallic catalysts on γ-Al2O3 |
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