| Literature DB >> 29381051 |
Keiichi Yamamoto1, Daichi Suemasa1, Kana Masuda1, Kazunari Aita1, Takeshi Endo2.
Abstract
A novel hyperbranched poly(triphenylamine) (PHTPA) was synthesized, and the electrochemical properties of this material were studied. PHTPA was synthesized by a facile method in a one-step reaction from affordable monomers. Despite all aromatic structures, PHTPA showed good solubility in several organic solvents. The battery performance test of PHTPA showed a high discharge voltage, an ultrafast charge-discharge performance of 100-300 C, and a long cycle life of more than 5000 cycles. Moreover, the addition of the PHTPA to LiFePO4 (LFP) improved the charge-transfer resistance and Warburg coefficient, which is related to the diffusion of lithium ions in LFP, and consequently improved the charge-discharge performance of LFP itself at a high C rate (20-100 C). This behavior is understood to be the result of the organic-inorganic charge transfer. The superior cycle performance of the PHTPA-LFP hybrid cathode was also found. PHTPA will serve as an additive for a high-performance LIB.Entities:
Keywords: hyperbranched polymer; long cycle life; organic−LFP hybrid cathode; organic−inorganic charge transfer; triphenylamine polymer; ultrafast battery
Year: 2018 PMID: 29381051 DOI: 10.1021/acsami.7b17943
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229