Three-Dimensional Structure Determination of Surface Sites

The spatial arrangement of atoms is directly linked to chemical function. A fundamental challenge in surface chemistry and catalysis relates to the determination of three-dimensional structures with atomic-level precision. Here we determine the three-dimensional structure of an organometallic complex on an amorphous silica surface using solid-state NMR measurements, enabled through a dynamic nuclear polarization surface enhanced NMR spectroscopy approach that induces a 200-fold increase in the NMR sensitivity for the surface species. The result, in combination with EXAFS, is a detailed structure for the surface complex determined with a precision of 0.7 Å. We observe a single well-defined conformation that is folded toward the surface in such a way as to include an interaction between the platinum metal center and the surface oxygen atoms.

Three-Dimensional Structure Determination of Surface Sites / Berruyer, Pierrick; Lelli, Moreno; Conley, Matthew P; Silverio, Daniel L; Widdifield, Cory M; Siddiqi, Georges; Gajan, David; Lesage, Anne; Copéret, Christophe; Emsley, Lyndon. - In: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY. - ISSN 0002-7863. - STAMPA. - 139:(2017), pp. 849-855. [10.1021/jacs.6b10894]

Three-Dimensional Structure Determination of Surface Sites

Berruyer, Pierrick;LELLI, MORENO^{Investigation};Conley, Matthew P;Silverio, Daniel L;Widdifield, Cory M;Siddiqi, Georges;Gajan, David;Lesage, Anne;Copéret, Christophe;Emsley, Lyndon

2017

Abstract

The spatial arrangement of atoms is directly linked to chemical function. A fundamental challenge in surface chemistry and catalysis relates to the determination of three-dimensional structures with atomic-level precision. Here we determine the three-dimensional structure of an organometallic complex on an amorphous silica surface using solid-state NMR measurements, enabled through a dynamic nuclear polarization surface enhanced NMR spectroscopy approach that induces a 200-fold increase in the NMR sensitivity for the surface species. The result, in combination with EXAFS, is a detailed structure for the surface complex determined with a precision of 0.7 Å. We observe a single well-defined conformation that is folded toward the surface in such a way as to include an interaction between the platinum metal center and the surface oxygen atoms.

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	Data di pubblicazione
	
			2017
		
	Rivista
	
			JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
		
	Volume
	
			139
		
	Pagina iniziale
	
			849
		
	Pagina finale
	
			855
		
	Codice ONU Sustainable Development Goals (SDG)
	
			Goal 7: Affordable and clean energy
		
	Tutti gli autori
	
			Berruyer, Pierrick; Lelli, Moreno; Conley, Matthew P; Silverio, Daniel L; Widdifield, Cory M; Siddiqi, Georges; Gajan, David; Lesage, Anne; Copéret, Christophe; Emsley, Lyndon
		
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1086118

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