Flexible functional materials are important candidates of current research, because of their potential applications in plastic electronics. Organic ferroelectrics are one of such materials having applications in data and storage devices. Since flexibility and ferroelectricity are rare combinations, these materials are promising candidates of designing new ferroelectrics. Dynamics of hydrogen has important contributions in the performance of this class of materials. To build on our previous investigations, in this proposal I propose to investigate dynamics of a range of trisubstituted halogenated imidazoles, which are reported to have ferroelectricity. Using high throughput techniques, the correlation of proton dynamics and ferroelectricity will be determined to search for finger print motions of ferroelectricity and to generate useful knowledge of ferroelectricity in organic materials