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Density functional theory (DFT) study of reaction between vanadium trioxide cluster cation (VO3+) and ethylene (C2H4) to yield VO2+ + CH3CHO (acetaldehyde) and VO2CH2+ + HCHO (formaldehyde) is carried out. Structures of all reactants, products, intermediates, and transition state in the reaction have been optimized and characterized. The results show unexpected barriers in the reaction due to the existence of a η2-O2 moiety in the ground state structure of VO3+. The initial reaction steps combining ethylene adsorption, C=C activation and O-O cleavage are proposed as rate limiting processes. Comparison of reactions of VO3+ + C2H4 with VO3 + C2H4 and VO2+ + C2H4 in the previous studies is made in detail. The results of this work may shed light on the understanding of C=C bond cleavage in related heterogeneous catalysis.
Density functional theory (DFT) study of reaction between vanadium trioxide cluster cation (VO3 +) and ethylene (C2H4) to yield VO2 + + CH3CHO (acetaldehyde) and VO2CH2 + + HCHO (formaldehyde) is carried out. Structures of all reactants, products, and transition state in the reaction have been optimized and characterized. The results show unexpected barriers in the reaction due to the existence of a η2-O2 moiety in the ground state structure of VO3 +. The initial reaction steps combining ethylene adsorption, C = C activation Comparison of reactions of VO3 + + C2H4 with VO3 + C2H4 and VO2 + + C2H4 in the previous studies is made in detail. The results of this work may shed light on the understanding of C = C bond cleavage in related heterogeneous catalysis