Achieving super dispersed metallic nickel nanoparticles over MCM-41 for highly active and stable hydrogenation of olefins and aromatics

[Display omitted] •NiM-2 is prepared as the non-precious metal catalyst for olefins and aromatics hydrogenation.•NiM-2 have more active sites due to high dispersion and easier oxidized Ni species reduction.•The connection between d-band center and di-σ adsorption is firstly confirmed.•Higher d-band...

Full description

Saved in:
Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2023-08, Vol.470, p.144197, Article 144197
Main Authors: Zhang, Jiaxiang, Wang, Tianzuo, Shi, Chengxiang, Pan, Lun, Zhang, Xiangwen, Peng, Chong, Zou, Ji-Jun
Format: Article
Language:English
Subjects:
Aromatic hydrogenation
Fuel processing
Hydrogen storage
Hydrogenation
Nickel catalyst
Olefin hydrogenation
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •NiM-2 is prepared as the non-precious metal catalyst for olefins and aromatics hydrogenation.•NiM-2 have more active sites due to high dispersion and easier oxidized Ni species reduction.•The connection between d-band center and di-σ adsorption is firstly confirmed.•Higher d-band center of NiM-2 boost adsorption and activation of C = C bonds.•NiM-2 shows excellent activity compared with commercial and reported Ni-based catalyst. Hydrogenation of olefins and aromatics is of significance for fuel processing and hydrogen storage, and developing nickel (Ni) catalyst highly active at low reaction temperature is the key to low the process cost. Herein we developed an ammonium citrate assisted impregnation method to fabricate loaded Ni catalyst (NiM-2) for hydrogenation. The Ni2+ species are anchored on the support MCM-41 strongly and evenly in form of Ni-citrate complex via the H-bonding between Si-OH group of MCM-41 and –COO- of citrate. During reduction, the carbon layerstemporarily formed by carbonization of citrate species inhibit the transfer and sintering of Ni species, and finally induces ultra-small metallic Ni nanoparticles after carbon layers slow decomposition by Ni species. Low coordination numbers and strong electron interaction between small metallic Ni nanoparticles and MCM-41 support upshift the d-band center of metallic Ni atoms. In hydrogenation, the small particle size and easier reduction for oxidized Ni species provide abundant active sites for reaction, and the upshifted d-band center induces strongly adsorption and activation of C = C bonds, which is confirmed for the first time in our work. As a result, the catalyst exhibits superior activity compared with reported and commercial Ni-based catalysts for hydrogenation of olefins and aromatics. Specifically, the catalyst with higher Ni loading (18%) exhibits good activity under room temperature and 0.1 MPa for hydrogenation of dicyclopentadiene and are comparable to Pd catalysts, making it as one of the best non-precious metal catalysts for hydrogenation reaction. And also, NiM-2 shows extremely high stability.
ISSN:1385-8947
DOI:10.1016/j.cej.2023.144197