三苯胺
电致变色
螯合作用
光化学
化学
电致变色装置
电化学
配体(生物化学)
氧化还原
无机化学
材料科学
高分子化学
过渡金属
普鲁士蓝
离子
八面体
氮气
亚胺离子
组合化学
作者
Meng‐Die Li,Li‐Yi Zhang,Jin‐Yun Wang,Jingyu Han,Xiang-Ying Qian,Xiao‐Liang Ye,Feng‐Rong Dai,Zhong‐Ning Chen
标识
DOI:10.1002/anie.202525500
摘要
Abstract To achieve high‐performance electrochromism, one of the most critical challenge is how to attain a transparent state. For this purpose, we elaborately designed a diethylenetriamine‐derived hexadentate nitrogen chelator functionalized with triphenylamine groups, which coordinates with manganese(II) ion to form an octahedral manganese(II) chelate. As d–d transition of the half‐filled d 5 manganese(II) center is forbidden, this manganese(II) chelate is colorless. Through electropolymerization of triphenylamine groups, we successfully fabricated a transparent metallopolymer film with manganese(II) chelates as repeating units. Under applied potentials, the initially transparent metallopolymer film undergoes stepwise oxidation at both manganese(II) and triphenylamine centers, so that the colorless film turns brown‐yellow at 0.9 V and further blue at 1.3 V. The solid‐state electrochromic device exhibits tricolor electrochromism from colorless to brownish yellow and blue at the voltages of 1.7 and 2.4 V, respectively. The coloring/bleaching time, color contrast, and electrochromic efficiency are 1.4 s/0.4 s, 40%, and 337.5 cm 2 C −1 between colorless and brownish yellow, whereas they become 2.2 s/0.4 s, 73%, and 397.1 cm 2 C −1 between colorless and blue. The device exhibits excellent stability with up to 10 000 cycles for manganese‐based electrochromism.
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