Affiliation:
1. Department of Chemistry University of Toronto 80 St. George St. Toronto Ontario Canada M5S 3H6
2. Department of Chemical and Physical Sciences 3359 Mississauga Road University of Toronto Mississauga Mississauga Ontario Canada L5L 1 C
3. Department of Electrical and Computer Engineering University of Toronto 10 King's College Road Toronto Ontario Canada M5S 3G8
Abstract
AbstractPolar crystalline materials, a subset of the non‐centrosymmetric materials, are highly sought after. Their symmetry properties make them pyroelectric and also piezoelectric and capable of second‐harmonic generation (SHG). For SHG and piezoelectric applications, metal oxides are commonly used. The advantages of oxides are durability and hardness – downsides are the need for high‐temperature synthesis/processing and often the need to include toxic metals. Organic polar crystals, on the other hand, can avoid toxic metals and can be amenable to solution‐state processing. While the vast majority of polar organic molecules crystallize in non‐polar space groups, we found that both 7‐chloro‐1,3,5‐triazaadamantane, for short Cl‐TAA, and also the related Br‐TAA (but not I‐TAA) form polar crystals in the space group R3m, easily obtained from dichloromethane solution. Measurements confirm piezoelectric and SHG properties for Cl‐TAA and Br‐TAA. When the two species are crystallized together, solid solutions form, suggesting that properties of future materials can be tuned continuously.
Funder
Natural Sciences and Engineering Research Council of Canada
Mitacs
University of Toronto