Litcius/Paper detail

Superior ferroelectricity and nonlinear optical response in a hybrid germanium iodide hexagonal perovskite

Kun Ding, Haoshen Ye, Chang‐Yuan Su, Yu‐An Xiong, Guo‐Wei Du, Yu‐Meng You, Zhi‐Xu Zhang, Shuai Dong, Yi Zhang, Da‐Wei Fu

2023Nature Communications127 citationsDOIOpen Access PDF

Abstract

Abstract Abundant chemical diversity and structural tunability make organic–inorganic hybrid perovskites (OIHPs) a rich ore for ferroelectrics. However, compared with their inorganic counterparts such as BaTiO 3 , their ferroelectric key properties, including large spontaneous polarization ( P s ), low coercive field ( E c ), and strong second harmonic generation (SHG) response, have long been great challenges, which hinder their commercial applications. Here, a quasi-one-dimensional OIHP DMAGeI 3 (DMA = Dimethylamine) is reported, with notable ferroelectric attributes at room temperature: a large P s of 24.14 μC/cm 2 (on a par with BaTiO 3 ), a low E c below 2.2 kV/cm, and the strongest SHG intensity in OIHP family (about 12 times of KH 2 PO 4 (KDP)). Revealed by the first-principles calculations, its large P s originates from the synergistic effects of the stereochemically active 4 s 2 lone pair of Ge 2+ and the ordering of organic cations, and its low kinetic energy barrier of small DMA cations results in a low E c . Our work brings the comprehensive ferroelectric performances of OIHPs to a comparable level with commercial inorganic ferroelectric perovskites.

Topics & Concepts

GermaniumFerroelectricityHexagonal crystal systemPerovskite (structure)Materials scienceIodideNonlinear opticalGermanium compoundsNonlinear systemOptoelectronicsCrystallographyChemistryPhysicsDielectricInorganic chemistrySiliconQuantum mechanicsPerovskite Materials and ApplicationsFerroelectric and Piezoelectric MaterialsCrystal Structures and Properties
Superior ferroelectricity and nonlinear optical response in a hybrid germanium iodide hexagonal perovskite | Litcius