Continuous Flow Upgrading of Selected C₂–C₆Platform Chemicals Derived from Biomass

Abstract: The ever increasing industrial production of commodity and specialty chemicals inexorably depletes the finite primary fossil resources available on Earth. The forecast of population growth over the next 3 decades is a very strong incentive for the identification of alternative primary resources other than petro-based ones. In contrast with fossil resources, renewable biomass is a virtually inexhaustible reservoir of chemical building blocks. Shifting the current industrial paradigm from almost exclusively petr… Show more

“…2 As "the 9 th principle of green chemistry", 3 catalysis allows inventing more efficient chemical routes for the production of chemicals, evolving towards intensied processes, and simplifying industrial workup procedures. 4 While catalysis science is classically compartmented into three sub-eldshomogeneous, heterogeneous and enzymatic catalysisit nowadays appears essential to harness the strengths of different types of catalysts to design greener chemical processes. 5 On the one hand, heterogeneous catalysts are considered as robust, with moderate intrinsic performance (selectivity, yield) but large scope of application.…”

Hybrid chemoenzymatic heterogeneous catalyst prepared in one step from zeolite nanocrystals and enzyme–polyelectrolyte complexes

“…2 As "the 9 th principle of green chemistry", 3 catalysis allows inventing more efficient chemical routes for the production of chemicals, evolving towards intensied processes, and simplifying industrial workup procedures. 4 While catalysis science is classically compartmented into three sub-eldshomogeneous, heterogeneous and enzymatic catalysisit nowadays appears essential to harness the strengths of different types of catalysts to design greener chemical processes. 5 On the one hand, heterogeneous catalysts are considered as robust, with moderate intrinsic performance (selectivity, yield) but large scope of application.…”

Hybrid chemoenzymatic heterogeneous catalyst prepared in one step from zeolite nanocrystals and enzyme–polyelectrolyte complexes

“…45 Monbaliu and co-workers summarize the impact of continuous flow on platform-chemicals derived from biomass. 46 Also the continuous synthesis of polymers have been reviewed by Zaquen et al very recently. 47 Different from the above-mentioned literature data, in this review, we aim at presenting only very recent developments in the field of continuous flow biocatalysis being published from 2018 to September 2020 with a special focus on potential future developments in this key emerging research area.…”

The rise of continuous flow biocatalysis – fundamentals, very recent developments and future perspectives

“…These experiments clearly support the view that the flow system is favored to run the present system economically and in a sustainable fashion. 12,50…”

p-Xylene from 2,5-dimethylfuran and acrylic acid using zeolite in a continuous flow system