| Literature DB >> 29244482 |
Wei Liu1,2,3, Mani Ulaganathan4, Ibrahim Abdelwahab1,3, Xin Luo2, Zhongxin Chen1,3, Sherman Jun Rong Tan1,3, Xiaowei Wang1,3, Yanpeng Liu1, Dechao Geng1, Yang Bao1, Jianyi Chen1, Kian Ping Loh1,2.
Abstract
Two-dimensional (2-D) polymer has properties that are attractive for energy storage applications because of its combination of heteroatoms, porosities and layered structure, which provides redox chemistry and ion diffusion routes through the 2-D planes and 1-D channels. Here, conjugated aromatic polymers (CAPs) were synthesized in quantitative yield via solid-state polymerization of phenazine-based precursor crystals. By choosing flat molecules (2-TBTBP and 3-TBQP) with different positions of bromine substituents on a phenazine-derived scaffold, C-C cross coupling was induced following thermal debromination. CAP-2 is polymerized from monomers that have been prepacked into layered structure (3-TBQP). It can be mechanically exfoliated into micrometer-sized ultrathin sheets that show sharp Raman peaks which reflect conformational ordering. CAP-2 has a dominant pore size of ∼0.8 nm; when applied as an asymmetric supercapacitor, it delivers a specific capacitance of 233 F g-1 at a current density of 1.0 A g-1, and shows outstanding cycle performance.Entities:
Keywords: 2-D materials; C−C coupling; conjugated porous polymers; solid-state polymerization; supercapacitors
Year: 2017 PMID: 29244482 DOI: 10.1021/acsnano.7b08354
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881