posted on 2013-08-14, 00:00authored byPoornima Madhavan, Klaus-Viktor Peinemann, Suzana P. Nunes
Hydrogen-bond
formation between polystyrene-b-poly (4-vinylpyridine)
(PS-b-P4VP) block copolymer (BCP) and −OH/–COOH
functionalized organic molecules was used to tune morphology of asymmetric
nanoporous membranes prepared by simultaneous self-assembly and nonsolvent
induced phase separation. The morphologies were characterized by field
emmision scanning electron microscopy (FESEM) and atomic force microscopy
(AFM). Hydrogen bonds were confirmed by infrared (IR), and the results
were correlated to rheology characterization. The OH-functionalized
organic molecules direct the morphology into hexagonal order. COOH-functionalized
molecules led to both lamellar and hexagonal structures. Micelle formation
in solutions and their sizes were determined using dynamic light scattering
(DLS) measurements and water fluxes of 600–3200 L/m2·h·bar were obtained. The pore size of the plain BCP membrane
was smaller than with additives. The following series of additives
led to pores with hexagonal order with increasing pore size: terephthalic
acid (COOH-bifunctionalized) < rutin (OH-multifunctionalized) <
9-anthracenemethanol (OH-monofunctionalized) < 3,5-dihydroxybenzyl
alcohol (OH-trifunctionalized).