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thermally induced phase separationSawada, Shinichi; Ursino, C.*; Galiano, F.*; Simone, S.*; Drioli, E.*; Figoli, A.*
Journal of Membrane Science, 493, p.232 - 242, 2015/11
Times Cited Count:53 Percentile:88.7(Engineering, Chemical)The replacement of commonly-used substances with non-toxic equivalents is attracting a great amount of attention in membrane preparation processes. In order to address this issue, we prepared porous poly(vinylidene fluoride) (PVDF) membranes via thermally-induced phase separation using the following non-toxic Citroflex as solvents: acetyl tributyl citrate (ATBC); acetyl triethyl citrate (ATEC); and triethyl citrate (TEC). The pore size of the membranes increased in the following solvent order of ATBC 
ATEC TEC, which is the same trend of the PVDF/solvent affinity. During the phase separation process, high-affinity solvent molecules should have enough molecular mobility and easily gather with each other to form the large solvent rich phases, thereby producing the large pores. In the pure water microfiltration test using the PVDF membranes, the water permeability can be controlled in the wide range, depending on the pore size.
Sawada, Shinichi; Ulsino, C.*; Galiano, F.*; Simone, S.*; Drioli, E.*; Figoli, A.*
no journal, ,
The replacement of commonly-used substances with non-toxic equivalents is attracting a great amount of attention in membrane preparation processes. In order to address this issue, we prepared poly(vinylidene fluoride) (PVDF) flat membranes via a thermally-induced phase separation method using non-toxic citrate-based solvents: acetyl tributyl citrate (ATBC); acetyl triethyl citrate (ATEC); and triethyl citrate (TEC). The pore size of the prepared PVDF membranes depended on the type of used solvents, and increased in the following solvent order of ATBC ATEC TEC. This order is the same as that of the affinity with PVDF. In the case of the high affinity solvent, the solvent molecules would have high molecular mobility in a polymer solution and easily gather with each other to form the large size solvent-rich phases, which turn to the large pores in the prepared membranes.
