Thermal and Dielectric Behavior Studies of Poly(Arylene Ether Sulfone)s with Sulfonated and Phosphonated Pendants

S. D. Ganesh, Vasantakumar K. Pai, M. Kariduraganavar, Madhu B. Jayanna
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引用次数: 2

Abstract

The present paper discusses the aspects of the synthesizing valeric acid based poly(ether sulfone)s with active carboxylic acid pendants (VALPSU) from solution polymerization technique via nucleophilic displacement polycondensation reaction among 4,4′-dichlorodiphenyl sulfone (DCDPS) and 4,4′-bis(4-hydroxyphenyl) valeric acid (BHPA). The conditions necessary to synthesize and purify the polymer were investigated in some detail. The synthesized poly(ether sulfone)s comprise sulfone and ether linkages in addition to reactive carboxylic acid functionality; these active carboxylic acid functional groups were exploited to hold the phenyl sulphonic acid and phenyl phosphonic acid pendants. The phenyl sulphonic acid pendants in VALPSU were easily constructed by altering active carboxylic acid moieties by sulfanilic acid using N,N′-dicyclohexylcarbodiimide (DCC) mediated mild synthetic route, whereas the latter one was built in two steps. Initially, polyphosphoric acid condensation with VALPSU by 4-bromoaniline and next straightforward palladium catalyzed synthetic route, in both of which acidic pendants are clenched by polymer backbone via amide linkage. Without impairing the primary polymeric backbone modified polymers were prepared by varying the stoichiometric ratios of respective combinations. All the polymers were physicochemically characterized and pressed into tablets; electrical contacts were established to study the dielectric properties. Finally, the influence of the acidic pendants on the dielectric properties was examined.
磺化和膦化垂饰聚芳醚砜的热学和介电行为研究
本文讨论了以4,4′-二氯二苯砜(DCDPS)和4,4′-双(4-羟基苯基)戊酸(BHPA)为原料,通过亲核位移缩聚反应,采用溶液聚合技术合成活性羧酸悬垂型戊酸基聚醚砜(VALPSU)的几个方面。对合成和纯化该聚合物的条件进行了较详细的研究。所合成的聚醚砜除具有活性羧酸官能团外,还包括砜和醚键;这些活性羧酸官能团被用来固定苯基磺酸和苯基膦酸。采用N,N ' -二环己基碳二酰亚胺(DCC)介导的温和合成路线,通过磺胺改变活性羧酸部分,容易构建出VALPSU中的苯基磺酸悬垂,而后者则需要两步构建。首先,多磷酸通过4-溴苯胺与VALPSU缩合,然后是钯催化的直接合成路线,在这两种合成路线中,酸性吊链都通过酰胺键被聚合物主链紧扣。通过改变各自组合的化学计量比来制备改性聚合物,而不损害初级聚合物骨架。所有聚合物都进行了物理化学表征并压成片剂;建立电触点,研究介电性能。最后,考察了酸性挂件对介电性能的影响。
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