期刊
ADSORPTION-JOURNAL OF THE INTERNATIONAL ADSORPTION SOCIETY
卷 13, 期 3-4, 页码 315-321出版社
SPRINGER
DOI: 10.1007/s10450-007-9062-0
关键词
Biochemical; energy and environmental applications; Fundamentals of adsorption; Liquid phase adsorption
Molecular imprinting techniques are becoming an increasingly important domain of porous polymers generally, to achieve molecule specific recognition through morphology or stereochemistry of cavities. Imprinting is sought to increase both selectivity and sensitivity where the polymer may be present as particulate, membrane or thin film forms. Here, we detail mechanisms involved in the formation, stability and adsorption of binding sites, through the influence of polymerisation conditions and templates on the porosity of highly crosslinked molecularly imprinted polymers ( MIPs). Environmental control represents an important area for porous polymers, here we focus on two template fungicides, iprodione and pyrimethanil, for ethylene glycol dimethacrylate ( EGDMA) based polymers. In general, control of the pre- polymerisation interactions were able to vary the surface areas of polymers from 40-60 m(2) g(-1) to 300-436 m(2) g(-1) while pore sizes fell into distributions ( a) close to the micropore region at similar to 3.8 nm, (b) in the 10 to 20 nm mesopore region and ( c) in the 20 to 50 nm mesopore region. The importance of intermolecular interactions and aggregation in the pre- polymerisation solution to the Brunauer, Emmett, Teller ( BET) surface areas and pore size distribution of final polymers has been demonstrated by systematic variation of chemical functionality. These effects confirm recent molecular dynamic simulation studies of MIP formation and cavity stability.
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