Abstract
Photoelectronic devices that utilize ferroelectric polarization offer significant advantages in terms of dipole-modulated charge separation and energy band gap. In this paper, we investigate the unusual photoresponse characteristics of a two-dimensional crystal with cation order-disorder mediated phases, namely, paraelectricity, ferroelectricity, and dipolar glass. Notably, the photocurrent demonstrates a clear anisotropic photoresponse in the ferroelectric state, whereas it becomes isotropic with significantly reduced values in the dipolar glass state. This anisotropy-isotropy change can be attributed to ferroelectric frustration within the dipolar glass phase. In addition, the Cu cation ordering at low temperature results in a larger band gap and suppressed photocurrent compared with the paraelectric and ferroelectric phases. This discovery offers valuable insights into understanding the impact of order-disorder phase transitions on the photodetective performance of ferroelectric materials.
- Received 21 February 2024
- Revised 11 April 2024
- Accepted 22 April 2024
DOI:https://doi.org/10.1103/PhysRevB.109.174109
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