Abstract: Metal precursor coordination and its reduction mechanism in Ni catalysts supported on detonation nanodiamonds (ND) have been studied. TPR demonstrated multistage reduction of NiO supported on ND, which was explained by the presence of two types of Ni species on the ND surface. Weakly bonded Ni species are held on the ND surface by van der Waals forces, whereas strongly bonded ones are chemically bonded to the functional groups on the ND surface. Both NiNi and NiOC scattering paths were found in Ni/ND catalysts using Morlet wavelet analysis of EXAFS data. The ratio of weakly and strongly bonded Ni species in the catalyst was tailored either by removal of functional groups by annealing of ND support in Ar at 900 °C or by calcination of NiO/ND precursor in air at 300 °C. The former resulted primarily in weakly bonded Ni species in the catalyst, while the latter led to strongly bonded ones. These two catalysts demonstrated drastic differences in selective styrene formation upon phenylacetylene hydrogenation: weakly bonded Ni species gave rise mainly to ethylbenzene, while Ni species strongly bonded to the surface through the NiOC bond afforded mainly styrene.

Cite: Golubina E.V. , Lokteva E.S. , Erokhin A.V. , Veligzhanin A.A. , Zubavichus Y.V. , Likholobov V.A. , Lunin V.V.
The Role of Metal–Support Interaction in Catalytic Activity of Nanodiamond-Supported Nickel in Selective Phenylacetylene Hydrogenation
Journal of Catalysis. 2016. V.344. P.90-99. DOI: 10.1016/j.jcat.2016.08.017 WOS Scopus РИНЦ ANCAN OpenAlex

Dates:

Submitted:	Jul 14, 2016
Accepted:	Aug 27, 2016
Published online:	Sep 28, 2016
Published print:	Dec 1, 2016

Identifiers:

Web of science:	WOS:000390182800008
Scopus:	2-s2.0-84988910138
Elibrary:	27569776
Chemical Abstracts:	2016:1552870
Chemical Abstracts (print):	165:476549
OpenAlex:	W2527415107

Citing:

DB	Citing
Web of science	52
Scopus	54
OpenAlex	53

Altmetrics: