卤化物
异质结
材料科学
纳米技术
工程物理
光电子学
化学
物理
无机化学
作者
Pramitha Yuniar Diah Maulida,Sri Hartati,Yuliar Firdaus,Anjar Taufik Hidayat,Lina Jaya Diguna,Dominik Kowal,Annalisa Bruno,Daniele Cortecchia,Arramel Arramel,Muhammad Danang Birowosuto
出处
期刊:Chemical physics reviews
[American Institute of Physics]
日期:2024-01-30
卷期号:5 (1)
摘要
In the past decades, halide perovskites and chalcogenide materials have provided significant contributions to the vast development for optoelectronic applications. Halide perovskites are known for their tunable properties, while chalcogenides are known for their high efficiency. The combination of these types of materials as heterostructures is thought to have been able to produce a superior device/photophysical performance. A peculiar aspect to consider is an inherent weak interaction between these layers via the stacking of different materials, promoting the realization of van der Waals heterostructures with novel functional properties. In this review, we summarize the progress and foresee the prospectives of material systems obtained by combining low-dimensional (0D, 1D, and 2D) halide perovskite and chalcogenide systems. Both emergent materials share their promise in terms of energy and charge transfer consideration. In addition, several aspects that are mutually important in this context will be outlined, namely, interlayer excitons, interfacial engineering, quantum confinement effect, and light–matter interactions. Based on these fundamental approaches, we translate the current understanding by highlighting several representative heterostructures with prominent performance such as light-emitting diodes, x-ray detectors, photodetectors, and solar cells. In this review, we focus on the rich chemistry and photophysics of these heterostructures, emphasizing the open questions related to their structure–property relationship. Finally, potential research directions and outlooks based on the implementation of halide perovskite–chalcogenide heterostructures are also proposed.
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