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Chemically Laminated 2D Bis(terpyridine)metal Polymer Films: Formation Mechanism at the Liquid–Liquid Interface and Redox Rectification
Author(s) -
Komeda Joe,
Takada Kenji,
Maeda Hiroaki,
Fukui Naoya,
Tsuji Takuya,
Nishihara Hiroshi
Publication year - 2022
Publication title -
chemistry – a european journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.687
H-Index - 242
eISSN - 1521-3765
pISSN - 0947-6539
DOI - 10.1002/chem.202201316
Subject(s) - terpyridine , materials science , rectification , cyclic voltammetry , polymer , bilayer , dichloromethane , redox , metal , valence (chemistry) , layer (electronics) , moiety , electrode , chemical engineering , polymer chemistry , nanotechnology , chemistry , electrochemistry , composite material , organic chemistry , voltage , membrane , biochemistry , physics , quantum mechanics , solvent , engineering , metallurgy
Recent studies on molecular 2D materials with high tunability of structure and function have focused mostly on the discovery of new precursors. Here, we demonstrate a facile one‐pot synthesis of laminated 2D coordination polymer films comprising bis(terpyridine)iron and cobalt at a water/dichloromethane interface. Cross‐sectional elemental mapping unveiled the stratum‐like structure of the film and revealed that the second layer grows to the dichloromethane side below the first layer. Cyclic voltammetry clarified that the bottom layer mediates charge transfer between the top layer and the substrate in a narrow potential region of mixed‐valence states. Furthermore, the bilayer film sandwiched by electrodes in a dry condition shows stable rectification character, and the barrier voltage corresponds to the redox potential difference between the two layers. This study introduces a new strategy for polymer design to explore the materials science of molecular 2D materials.