Issue 11, 2024

The past 10 years of molecular ferroelectrics: structures, design, and properties

Abstract

Ferroelectricity, which has diverse important applications such as memory elements, capacitors, and sensors, was first discovered in a molecular compound, Rochelle salt, in 1920 by Valasek. Owing to their superiorities of lightweight, biocompatibility, structural tunability, mechanical flexibility, etc., the past decade has witnessed the renaissance of molecular ferroelectrics as promising complementary materials to commercial inorganic ferroelectrics. Thus, on the 100th anniversary of ferroelectricity, it is an opportune time to look into the future, specifically into how to push the boundaries of material design in molecular ferroelectric systems and finally overcome the hurdles to their commercialization. Herein, we present a comprehensive and accessible review of the appealing development of molecular ferroelectrics over the past 10 years, with an emphasis on their structural diversity, chemical design, exceptional properties, and potential applications. We believe that it will inspire intense, combined research efforts to enrich the family of high-performance molecular ferroelectrics and attract widespread interest from physicists and chemists to better understand the structure–function relationships governing improved applied functional device engineering.

Graphical abstract: The past 10 years of molecular ferroelectrics: structures, design, and properties

Article information

Article type
Review Article
Submitted
09 Jan 2024
First published
01 May 2024

Chem. Soc. Rev., 2024,53, 5781-5861

The past 10 years of molecular ferroelectrics: structures, design, and properties

Q. Pan, Z. Gu, R. Zhou, Z. Feng, Y. Xiong, T. Sha, Y. You and R. Xiong, Chem. Soc. Rev., 2024, 53, 5781 DOI: 10.1039/D3CS00262D

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