The Structure of Monomeric Hydroxo-CuII Species in Cu-CHA. A Quantitative Assessment | Zendy

Paolo Cleto Bruzzese | Zendy; Enrico Salvadori | Zendy; Bartolomeo Civalleri | Zendy; Stefan Jäger | Zendy; Martin Hartmann | Zendy; Andreas Pöppl | Zendy; Mario Chiesa | Zendy

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The Structure of Monomeric Hydroxo-Cu^II Species in Cu-CHA. A Quantitative Assessment

Author(s) -

Paolo Cleto Bruzzese,

Enrico Salvadori,

Bartolomeo Civalleri,

Stefan Jäger,

Martin Hartmann,

Andreas Pöppl,

Mario Chiesa

Publication year - 2022

Publication title -

journal of the american chemical society

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 7.115

H-Index - 612

eISSN - 1520-5126

pISSN - 0002-7863

DOI - 10.1021/jacs.2c06037

Subject(s) - chemistry , electron paramagnetic resonance , crystallography , chabazite , monomer , copper , hydrogen bond , ab initio , octahedron , ligand (biochemistry) , ab initio quantum chemistry methods , molecule , zeolite , crystal structure , nuclear magnetic resonance , organic chemistry , biochemistry , physics , polymer , receptor , catalysis

Using EPR and HYSCORE spectroscopies in conjunction with ab initio calculations, we assess the structure of framework-bound monomeric hydroxo-Cu II in copper-loaded chabazite (CHA). The species is an interfacial distorted square-planar [Cu II OH(O-8MRs) 3 ] complex located at eight-membered-ring windows, displaying three coordinating bonds with zeolite lattice oxygens and the hydroxo ligand hydrogen-bonded to the cage. The complex has a distinctive EPR signature with g = [2.072 2.072 2.290], Cu A = [30 30 410] MHz, and H A = [-13.0 -4.5 +11.5] MHz, distinctively different from other Cu II species in CHA.

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