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Can a molecular switch exist in both superalkali electride and superalkalide forms?

Xiu-Guang YiYin-Feng WangHua-Rong ZhangJin-Hua CaiXue-Xia LiuJia LiZhi-Jun WangFu Quan BaiZhi-Ru Li
Published in: Physical chemistry chemical physics : PCCP (2022)
To combine both electride and alkalide characteristics in one molecular switch, it is shown herein that the phenalenyl radical and the M 3 ring (M 3 -PHY, M = Li, Na, and K) stacked with parallel and vertical geometries are good candidates. The former geometry is the superalkali electride e - ⋯M 3 + -PHY while the latter geometry is the superalkalide M δ - -M 2 (1- δ )+ -PHY - . The superalkalide M δ - -M 2 (1- δ )+ -PHY - may isomerize to the superalkali electride e - ⋯M 3 + -PHY (M = Li, Na, and K) using suitable long-wavelength irradiation, while the latter may isomerize to the former with suitable short-wavelength irradiation. Also, applying suitable oriented external electric fields can drive the superalkalide M δ - M 2 (1- δ )+ -PHY - to change into the superalkali electride e - ⋯M 3 + -PHY (M = Li, Na, and K). The differences in the static and dynamic first hyperpolarizability ( β 0 ) values between them were also studied.
Keyphrases
  • ion batteries
  • solid state
  • radiation induced