Enhancing the performance of molecule-based piezoelectric sensors by optimizing their microstructures.

By combining the rigidity of inorganic components with the flexibility of organic components, molecule-based ferroelectrics emerge as promising candidates for flexible, self-powered piezoelectric sensors. While it is well known that the performance of piezoelectric sensor devices depends not only on the materials' piezoelectric properties but also on the device architecture, research into enhancing molecule-based piezoelectric sensor performance through microstructure optimization has never been investigated. Here, we report the synthesis of a molecule-based ferroelectric, [(2-bromoethyl) trimethylammonium][GaBr] ([(CH)NCHCHBr][GaBr]) (1), which exhibits a piezoelectric coefficient ( ) of up to 331 pC N.