Data-driven discovery of high performance layered van der Waals piezoelectric NbOI2

• Main Authors: Abdelwahab, I. (Author), Eda, G. (Author), Kwon, K.C (Author), Liew, W.H (Author), Loh, K.P (Author), Quek, S.Y (Author), Shen, L. (Author), Verzhbitskiy, I. (Author), Wang, L. (Author), Wu, Y. (Author), Yao, K. (Author)
• Format: Article
• Language: English
• Published: Nature Research 2022
• Online Access: View Fulltext in Publisher

 Using high-throughput first-principles calculations to search for layered van der Waals materials with the largest piezoelectric stress coefficients, we discover NbOI2 to be the one among 2940 monolayers screened. The piezoelectric performance of NbOI2 is independent of thickness, and its electromechanical coupling factor of near unity is a hallmark of optimal interconversion between electrical and mechanical energy. Laser scanning vibrometer studies on bulk and few-layer NbOI2 crystals verify their huge piezoelectric responses, which exceed internal references such as In2Se3 and CuInP2S6. Furthermore, we provide insights into the atomic origins of anti-correlated piezoelectric and ferroelectric responses in NbOX2 (X = Cl, Br, I), based on bond covalency and structural distortions in these materials. Our discovery that NbOI2 has the largest piezoelectric stress coefficients among 2D materials calls for the development of NbOI2-based flexible nanoscale piezoelectric devices. © 2022, The Author(s).