Litcius/Paper detail

2D Electrets of Ultrathin MoO<sub>2</sub> with Apparent Piezoelectricity

Amey Apte, Kosar Mozaffari, Farnaz Safi Samghabadi, Jordan A. Hachtel, Long Chang, Sandhya Susarla, Juan Carlos Idrobo, David C. Moore, Nicholas R. Glavin, Dmitri Litvinov, Pradeep Sharma, Anand B. Puthirath, Pulickel M. Ajayan

2020Advanced Materials87 citationsDOIOpen Access PDF

Abstract

Abstract Since graphene, a variety of 2D materials have been fabricated in a quest for a tantalizing combination of properties and desired physiochemical behavior. 2D materials that are piezoelectric, i.e., that allow for a facile conversion of electrical energy into mechanical and vice versa, offer applications for sensors, actuators, energy harvesting, stretchable and flexible electronics, and energy storage, among others. Unfortunately, materials must satisfy stringent symmetry requirements to be classified as piezoelectric. Here, 2D ultrathin single‐crystal molybdenum oxide (MoO 2 ) flakes that exhibit unexpected piezoelectric‐like response are fabricated, as MoO 2 is centrosymmetric and should not exhibit intrinsic piezoelectricity. However, it is demonstrated that the apparent piezoelectricity in 2D MoO 2 emerges from an electret‐like behavior induced by the trapping and stabilization of charges around defects in the material. Arguably, the material represents the first 2D electret material and suggests a route to artificially engineer piezoelectricity in 2D crystals. Specifically, it is found that the maximum out‐of‐plane piezoresponse is 0.56 pm V −1 , which is as strong as that observed in conventional 2D piezoelectric materials. The charges are found to be highly stable at room temperature with a trapping energy barrier of ≈2 eV.

Topics & Concepts

ElectretPiezoelectricityMaterials scienceFlexoelectricityEnergy harvestingNanotechnologyOptoelectronicsGrapheneComposite materialEnergy (signal processing)MathematicsStatisticsAdvanced Sensor and Energy Harvesting MaterialsMultiferroics and related materials2D Materials and Applications