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Room Temperature Epoxidation of Ethylene over Delafossite-Based AgNiO2 Nanoparticles Full article

Journal PCCP: Physical Chemistry Chemical Physics
ISSN: 1463-9076 , E-ISSN: 1463-9084
Output data Year: 2023, Volume: 25, Number: 31, Pages: 20892-20902 Pages count : 11 DOI: 10.1039/d3cp01701j
Tags Ethylene; Nickel; Nickel compounds; Precipitation (chemical); Silver oxides
Authors Svintsitskiy Dmitry A. 1 , Lazarev Mikhail K. 1 , Slavinskaya Elena M. 1 , Fedorova Elizaveta A. 1 , Kardash Tatyana Yu. 1 , Cherepanova Svetlana V. 1 , Boronin Andrei I. 1
Affiliations
1 Boreskov Institute of Catalysis, Pr. Lavrentieva 5, Novosibirsk, Russian Federation

Funding (1)

1 Ministry of Science and Higher Education of the Russian Federation 0239-2021-0003

Abstract: A mixed oxide of silver and nickel AgNiO2 was obtained via co-precipitation in alkaline medium. This oxide demonstrates room temperature activity in the reaction of ethylene epoxidation with a high selectivity (up to 70%). Using the PDF method, it was found that the initial structure of AgNiO2 contains stacking faults and silver vacancies, which cause the nonstoichiometry of the oxide (Ag/Ni < 1). It has been established that on the initial surface of AgNiO2 oxide, silver state can be considered as an intermediate between Ag2O and Ag0 (i.e. Agδ+-like), while nickel is characterized by signs of a deeply oxidized state (Ni3+-like). The interaction of AgNiO2 with C2H4 at room temperature leads to the simultaneous removal of two oxygen species with Eb(O 1s) = 529.0 eV and 530.5 eV considered as nucleophilic and electrophilic oxygen states, respectively. Nucleophilic oxygen was attributed to the lattice oxygen (Ag–O–Ni), while the electrophilic species with epoxidation activity was associated with the weakly bound oxygen stabilized on the surface. According to the TPR-C2H4 data, a large number of weakly bound oxygen species were found on the pristine AgNiO2 surface. The removal of such species at room temperature didn’t result in noticeable structural transformation of delafossite. As the temperature of ethylene oxidation over AgNiO2 increased, the appearance of Ag0 particles was first observed below 200 °C followed by the complete destruction of the delafossite structure at higher temperatures.
Cite: Svintsitskiy D.A. , Lazarev M.K. , Slavinskaya E.M. , Fedorova E.A. , Kardash T.Y. , Cherepanova S.V. , Boronin A.I.
Room Temperature Epoxidation of Ethylene over Delafossite-Based AgNiO2 Nanoparticles
PCCP: Physical Chemistry Chemical Physics. 2023. V.25. N31. P.20892-20902. DOI: 10.1039/d3cp01701j WOS Scopus РИНЦ AN PMID OpenAlex
Dates:
Submitted: Apr 14, 2023
Accepted: Jul 15, 2023
Published online: Jul 18, 2023
Published print: Aug 21, 2023
Identifiers:
Web of science: WOS:001040588200001
Scopus: 2-s2.0-85167481401
Elibrary: 54367277
Chemical Abstracts: 2023:1585665
PMID: 37526576
OpenAlex: W4384788662
Citing:
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Scopus 3
OpenAlex 3
Web of science 2
Elibrary 1
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