期刊
NANO ENERGY
卷 99, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.nanoen.2022.107371
关键词
Piezotronics; CuInP 2 S 6 layers; Out-of-plane piezoelectricity; Piezoelectric nanogenerator
类别
资金
- Research Grants Council of Hong Kong [GRF PolyU 153025/19P, SRFS2122-5S02]
Piezoelectricity in 2D materials has great potential, but most of the discovered 2D layered piezoelectric materials only possess in-plane piezoelectricity, limiting their integration with rigid substrates. CuInP2S6 is a promising 2D material with excellent properties, including out-of-plane ferroelectricity and high stability at room temperature. However, research on the piezoelectric effect and its application in 2D CuInP2S6 is still in the early stage.
Piezoelectricity in two-dimensional (2D) materials have received particular attention because of their great potential in realizing nanoscale piezotronic devices. However, most 2D layered piezoelectric materials found so far possess only in-plane piezoelectricity and require the induction of stress by bending flexible substrate, which limits their integration with conventional rigid substrates such as silicon wafer. CuInP2S6 is a promising 2D layered material that has attracted widespread devotion due to its diverse excellent properties including out-ofplane ferroelectricity and high stability at room-temperature. However, comprehensive investigation of piezoelectric effect in 2D CuInP2S6 and its relevant piezoelectric device application is still at an initial stage compared to the extensive investigation of its ferroelectricity. Herein, we perform a quantitative analysis of the large out-ofplane piezoelectricity in multilayer CuInP2S6 and therefore demonstrate the device application for 2D piezoelectric nanogenerator (PENG). Few-layer CuInP2S6 nanosheet shows a high d33 piezoelectric coefficient of 17.4 pm/V, outperforming other 2D layered piezoelectrics currently reported. Moreover, the PENG based on a single CuInP2S6 nanoflake illustrates a maximum piezoelectric current and voltage responses of 1.7 nA and 12 mV, respectively. The experimental results are discussed based on the piezotronic effect. The strong piezoelectric response achieved in 2D CuInP2S6 nanosheets warrants their potential to be adopted for future strain-modulable nanoelectronic and piezotronic devices integrated with silicon-based chips.
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