Heavy atoms can form highly coordinated states, and their optical properties have attracted much attention. Recently, we have demonstrated that a reversible coordination-number shift of hypervalent tin(IV) from five to six can provide predictable hypsochromic shifts in light absorption and emission properties in small molecules and a π-conjugated polymer film. Herein, we show the preparation of seven-coordinated tin and reveal that the binding constant of the seven coordination with ethylenediamine (EDA, = 2900 M) is 200 times higher than that of six coordination with propylamine (PA, = 14 M) owing to the chelate effect. Moreover, reversible vapochromism of the π-conjugated polymer film was observed upon exposure ( = 598 nm and = 697 nm) and desorption ( = 641 nm and = 702 nm) of EDA vapor. Furthermore, as a unique demonstration, the thermochromic film was prepared by fixing the seven coordination as the initial state using 1,10-phenanthroline. These optical variations are predictable by quantum chemical calculations. Our findings are valuable for the development of designable and controllable stimuli-responsive materials focusing on the inherent properties of the elements.

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http://dx.doi.org/10.1039/d4dt01738bDOI Listing

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