Synthesis of cyclohexylphenol via phenol hydroalkylation using Co2P/zeolite catalysts

Cyclohexylphenol (CHP) is a high added-value chemical, extensively used for the preparation of dyes, resins and biocides. This molecule is currently synthetized by phenol alkylation with cyclohexene/cyclohexanol using highly polluting mineral Brønsted acids as catalysts. The present contribution rep...

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Bibliographic Details
Published in:Catalysis today 2022-05, Vol.390-391, p.135-145
Main Authors: Gutiérrez-Rubio, S., Shamzhy, M., Čejka, J., Serrano, D.P., Coronado, J.M., Moreno, I.
Format: Article
Language:English
Subjects:
Cobalt phosphide
Cyclohexylphenol
Phenol hydroalkylation
Zeolites
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Summary:Cyclohexylphenol (CHP) is a high added-value chemical, extensively used for the preparation of dyes, resins and biocides. This molecule is currently synthetized by phenol alkylation with cyclohexene/cyclohexanol using highly polluting mineral Brønsted acids as catalysts. The present contribution reports the one-pot production of cyclohexylphenol via hydroalkylation, using phenol as the only organic reactant, over a number of bifunctional catalysts consisting of Co2P (5 wt% Co) supported over different zeolites (ferrierite, mordenite, beta and MCM-22). Phenol conversion increased in the order: Co2P/Mordenite (30%) < Co2P/Ferrierite (65%) < Co2P/Beta (77%) < Co2P/MCM-22 (90%), which reflects enhancing dispersion of cobalt phosphide phase and accessibility of acid centres with evolving external surface in nanocrystalline zeolite supports. On the other hand, remarkable differences were observed between the catalysts in terms of CHP formation. The highest values of CHP yield and selectivity (YCHP=43% and SCHP=56%) were attained over the Co2P/Beta catalyst, due to the combination of three-dimensional microporosity, large external surface area (as a consequence of its nanocrystalline nature) and highly dispersed Co2P nanoparticles. In addition, it is envisaged that the formation of CoAlPO phases might favour a balanced performance of metal and acid sites for the CHP production. [Display omitted] •Co2P/zeolites were applied as catalysts for phenol hydroalkylation.•Mordenite, ferrierite, beta and MCM-22 were used as supports.•Phenol conversion favoured over materials with high accessibility and small Co2P particles.•Cyclohexylphenol production required an adequate balance of metal and acid sites.•Highest selectivity and yield to cyclohexylphenol were achieved over Co2P/Beta.
ISSN:0920-5861
1873-4308
DOI:10.1016/j.cattod.2021.11.039