High temperature switchable dielectric properties in molecular crystal material 1,4,7-triazacyclononane trihydrochloride

Abstract: Molecular-based dielectric switching material is a special crystal-crystal structure phase transition material, which plays an important role in multifunctional materials and other fields. In this paper, a trivalent cyclic amine...

“…Ferroelectrics have many special macroscopic responses, such as piezoelectric, pyroelectric, dielectric and electro-optical properties. 6–13 Molecular-based phase change materials have attracted extensive attention as a useful supplement to the traditional inorganic phase change materials. Their structures and synthesis are relatively simple, and their structures can be modified, such as the introduction of optical activity, etc.…”

High piezoelectric, dielectric relaxation and semiconductor properties in a one-dimensional organic–inorganic hybrid complex: [2-methyl-1,5-pentanediamine][BiCl₅]

“…Ferroelectrics have many special macroscopic responses, such as piezoelectric, pyroelectric, dielectric and electro-optical properties. 6–13 Molecular-based phase change materials have attracted extensive attention as a useful supplement to the traditional inorganic phase change materials. Their structures and synthesis are relatively simple, and their structures can be modified, such as the introduction of optical activity, etc.…”

High piezoelectric, dielectric relaxation and semiconductor properties in a one-dimensional organic–inorganic hybrid complex: [2-methyl-1,5-pentanediamine][BiCl₅]

Order–disorder structural phase transition and dielectric–ferroelectric properties of a host-guest methionine–crown ether inclusion complex