The optimization of glycidyl methacrylate based terpolymer monolith synthesis: an effective Candida rugosa lipase immobilization support

“…These bioreactors were prepared as macroporous monolithic systems and tested for the continuous flow synthesis of citronellyl propionate in supercritical carbon dioxide by transesterification. A fresh study [90] in Table 1 focused on improving the thermal and mechanical stability of the polymer monolith that was used for the immobilization of lipase.…”

Flow‐through enzymatic reactors using polymer monoliths: From motivation to application

“…These bioreactors were prepared as macroporous monolithic systems and tested for the continuous flow synthesis of citronellyl propionate in supercritical carbon dioxide by transesterification. A fresh study [90] in Table 1 focused on improving the thermal and mechanical stability of the polymer monolith that was used for the immobilization of lipase.…”

Flow‐through enzymatic reactors using polymer monoliths: From motivation to application

“…Among the existed publications on the preparation of monolithic layers, one can find two main approaches for stimulation of initiator decomposition, i.e., thermo- [55,57] and photo-initiated ones [63,64,72]. Contrary to the preparation of monolithic columns, for which the main method is thermo-initiated decomposition of initiator [75][76][77], for thin layers the photo-initiated process is preferable (see Table 1). In general, UV-polymerization is limited by thickness of a mold and its transparency.…”

Macroporous Polymer Monoliths in Thin Layer Format

Biocatalytic polymeric membranes to decrease biofilm fouling and remove organic contaminants in wastewater: a review