The
development of zeolite catalysts for linear alkylbenzene production
is of crucial importance in achieving green chemical processes for
the detergent industry. In the present research, the fabricated beta
zeolite catalysts exhibited extraordinary activity (73%) and selectivity
of 2-LAB (85%) in the alkylation of benzene with 1-dodecene, which
benefited from the open micropore-to-mesopore networks, exposed acid
sites, and shape-selectivity of special topology of beta zeolites.
The computer calculations revealed that both benzene and 1-dodecene
can enter into the 12-MR channels of beta zeolites, in which 1-dodecene
was adsorbed on the surface of 12-MR channels in the form of chemical
adsorption, and the fixed 1-dodecene was attached to benzene combined
with the matched pore size of 12-MR channels of beta zeolites to effectively
produce the desired 2-LAB. Moreover, the mesopore beta zeolites also
presented superior stability compared with traditional micropore beta
zeolite in the alkylation between benzene and 1-dodecene due to enhanced
diffusion. Our work definitely paved a way to develop mesopore beta
zeolites as a new type of highly efficient heterogeneous catalysts
for industrial production of 2-LAB.
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