A Single-Site Platinum CO Oxidation Catalyst in Zeolite KLTL: Microscopic and Spectroscopic Determination of the Locations of the Platinum Atoms

A stable site‐isolated mononuclear platinum catalyst with a well‐defined structure is presented. Platinum complexes supported in zeolite KLTL were synthesized from [Pt(NH3)4](NO3)2, oxidized at 633 K, and used to catalyze CO oxidation. IR and X‐ray absorption spectra and electron micrographs determi...

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Published in	Angewandte Chemie Vol. 126; no. 34; pp. 9050 - 9053
Main Authors	Kistler, Joseph D., Chotigkrai, Nutchapon, Xu, Pinghong, Enderle, Bryan, Praserthdam, Piyasan, Chen, Cong-Yan, Browning, Nigel D., Gates, Bruce C.
Format	Journal Article
Language	English German
Published	Weinheim WILEY-VCH Verlag 18.08.2014 WILEY‐VCH Verlag Wiley Subscription Services, Inc
Subjects	Atoms & subatomic particles Bonding Carbon monoxide Catalysts Chemistry Electron micrographs Elektronenmikroskopie EXAFS Ortsisolierte Katalysatoren Oxidation Platin Platinum Porosity X-rays Zeolites Zeolithe
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Abstract	A stable site‐isolated mononuclear platinum catalyst with a well‐defined structure is presented. Platinum complexes supported in zeolite KLTL were synthesized from [Pt(NH3)4](NO3)2, oxidized at 633 K, and used to catalyze CO oxidation. IR and X‐ray absorption spectra and electron micrographs determine the structures and locations of the platinum complexes in the zeolite pores, demonstrate the platinum‐support bonding, and show that the platinum remained site isolated after oxidation and catalysis. An der richtigen Stelle: Ein ortsisolierter einkerniger Platinkatalysator findet sich im Zeolith KLTL als Träger mit einer stabilen und genau definierten Struktur. Der Katalysator wurde spektroskopisch untersucht und mit STEM abgebildet (siehe Bild; die Platinkomplexe in den Zeolithporen sind durch blaue Kreise gekennzeichnet; hervorgehoben ist der Platinkomplex in der Bildmitte, der sich an einer D‐Position befindet).
AbstractList	A stable site-isolated mononuclear platinum catalyst with a well-defined structure is presented. Platinum complexes supported in zeolite KLTL were synthesized from [Pt(NH3)4](NO3)2, oxidized at 633K, and used to catalyze CO oxidation. IR and X-ray absorption spectra and electron micrographs determine the structures and locations of the platinum complexes in the zeolite pores, demonstrate the platinum-support bonding, and show that the platinum remained site isolated after oxidation and catalysis. A stable site‐isolated mononuclear platinum catalyst with a well‐defined structure is presented. Platinum complexes supported in zeolite KLTL were synthesized from [Pt(NH3)4](NO3)2, oxidized at 633 K, and used to catalyze CO oxidation. IR and X‐ray absorption spectra and electron micrographs determine the structures and locations of the platinum complexes in the zeolite pores, demonstrate the platinum‐support bonding, and show that the platinum remained site isolated after oxidation and catalysis. An der richtigen Stelle: Ein ortsisolierter einkerniger Platinkatalysator findet sich im Zeolith KLTL als Träger mit einer stabilen und genau definierten Struktur. Der Katalysator wurde spektroskopisch untersucht und mit STEM abgebildet (siehe Bild; die Platinkomplexe in den Zeolithporen sind durch blaue Kreise gekennzeichnet; hervorgehoben ist der Platinkomplex in der Bildmitte, der sich an einer D‐Position befindet). Abstract A stable site‐isolated mononuclear platinum catalyst with a well‐defined structure is presented. Platinum complexes supported in zeolite KLTL were synthesized from [Pt(NH 3 ) 4 ](NO 3 ) 2 , oxidized at 633 K, and used to catalyze CO oxidation. IR and X‐ray absorption spectra and electron micrographs determine the structures and locations of the platinum complexes in the zeolite pores, demonstrate the platinum‐support bonding, and show that the platinum remained site isolated after oxidation and catalysis. A stable site-isolated mononuclear platinum catalyst with a well-defined structure is presented. Platinum complexes supported in zeolite KLTL were synthesized from [Pt(NH sub(3)) sub(4)](NO sub(3)) sub(2), oxidized at 633K, and used to catalyze CO oxidation. IR and X-ray absorption spectra and electron micrographs determine the structures and locations of the platinum complexes in the zeolite pores, demonstrate the platinum-support bonding, and show that the platinum remained site isolated after oxidation and catalysis.Original Abstract: An der richtigen Stelle: Ein ortsisolierter einkerniger Platinkatalysator findet sich im Zeolith KLTL als Traeger mit einer stabilen und genau definierten Struktur. Der Katalysator wurde spektroskopisch untersucht und mit STEM abgebildet (siehe Bild; die Platinkomplexe in den Zeolithporen sind durch blaue Kreise gekennzeichnet; hervorgehoben ist der Platinkomplex in der Bildmitte, der sich an einer D-Position befindet).
Author	Chotigkrai, Nutchapon Xu, Pinghong Enderle, Bryan Praserthdam, Piyasan Chen, Cong-Yan Browning, Nigel D. Kistler, Joseph D. Gates, Bruce C.
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Notes	Department of Energy (DOE) Basic Energy Science - No. FG02-04ER15513; No. DE-SC0005822 Thailand research fund - No. DE-AC02-76SF00515; No. DE-AC05-76L01830 istex:816A32645746D92873CF58A1F9C3A663C680F5FF ark:/67375/WNG-2FJHBGVC-2 This work was supported by the Department of Energy (DOE) Basic Energy Science Grants FG02-04ER15513 and DE-SC0005822 and the Royal Golden Jubilee PhD program of the Thailand research fund. We acknowledge beam time and support of beamline 4-1 at the Stanford Synchrotron Radiation Lightsource (SSRL), supported by DOE, Office of Science, Basic Energy Sciences, Contract DE-AC02-76SF00515. We acknowledge support through the Laboratory Directed Research and Development Program Chemical Imaging Initiative at Pacific Northwest National Laboratory (PNNL) and the Environmental Molecular Sciences Laboratory, a national scientific user facility sponsored by DOE's Office of Biological and Environmental Research at PNNL. PNNL is a multiprogram national laboratory operated by Battelle for DOE under Contract DE-AC05-76L01830. ArticleID:ANGE201403353 These authors contributed equally to this work. This work was supported by the Department of Energy (DOE) Basic Energy Science Grants FG02‐04ER15513 and DE‐SC0005822 and the Royal Golden Jubilee PhD program of the Thailand research fund. We acknowledge beam time and support of beamline 4–1 at the Stanford Synchrotron Radiation Lightsource (SSRL), supported by DOE, Office of Science, Basic Energy Sciences, Contract DE‐AC02‐76SF00515. We acknowledge support through the Laboratory Directed Research and Development Program Chemical Imaging Initiative at Pacific Northwest National Laboratory (PNNL) and the Environmental Molecular Sciences Laboratory, a national scientific user facility sponsored by DOE’s Office of Biological and Environmental Research at PNNL. PNNL is a multiprogram national laboratory operated by Battelle for DOE under Contract DE‐AC05‐76L01830. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
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Snippet	A stable site‐isolated mononuclear platinum catalyst with a well‐defined structure is presented. Platinum complexes supported in zeolite KLTL were synthesized... Abstract A stable site‐isolated mononuclear platinum catalyst with a well‐defined structure is presented. Platinum complexes supported in zeolite KLTL were... A stable site-isolated mononuclear platinum catalyst with a well-defined structure is presented. Platinum complexes supported in zeolite KLTL were synthesized...
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SubjectTerms	Atoms & subatomic particles Bonding Carbon monoxide Catalysts Chemistry Electron micrographs Elektronenmikroskopie EXAFS Ortsisolierte Katalysatoren Oxidation Platin Platinum Porosity X-rays Zeolites Zeolithe
Title	A Single-Site Platinum CO Oxidation Catalyst in Zeolite KLTL: Microscopic and Spectroscopic Determination of the Locations of the Platinum Atoms
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