Two-dimensionalization of 3D perovskites for passive narrowband Photodetection

IF 10.7 Q1 CHEMISTRY, PHYSICAL
EcoMat Pub Date : 2024-06-17 DOI:10.1002/eom2.12472
Xin Song, Siwen Liu, Lizhi Ren, Yunxian Zuo, Shimin Wang, Erjing Wang, Jin Qian, Tao Ye, Kai Wang, Congcong Wu
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引用次数: 0

Abstract

In the rapidly advancing field of information technology, passive sensors with the exemption of external power input can serve as intelligent instruments for end-node data acquisition. 3D perovskites have been recognized as a superior optoelectronic material but suffering from notorious instability due to their “soft lattice” nature. Replacing by their 2D counterparts in these photo-sensing applications can boost the reliability level. However, traditional fabrication for 2D perovskite relay on wet chemistry methods, exhibiting complication, and inefficiency in making high-quality films for device integration. This study unveils a new solid–solid conversion routing toward a direct transformation from 3D orientated films into 2D highly crystalline configuration, based on a spontaneous lattice regulation mechanism through an amine steam treatment. The resultant 2D film exhibits greater orientational micromorphology and a distinct monochromatic narrowband light sensing behavior after integration into a self-powered photodetector. This method on perovskite conversion bears the promise of advanced future-manufacturing for high-performance photonic sensing.

Abstract Image

Abstract Image

用于无源窄带光电探测的三维过氧化物的二维化
在飞速发展的信息技术领域,无需外部电源输入的无源传感器可作为终端节点数据采集的智能仪器。三维过氧化物已被公认为一种优质光电材料,但由于其 "软晶格 "性质,其不稳定性也是众所周知的。在这些光传感应用中,用二维对应材料取而代之可以提高可靠性水平。然而,传统的二维包晶制造方法依赖于湿化学方法,在制造用于设备集成的高质量薄膜方面表现出复杂性和低效率。本研究揭示了一种新的固-固转换路线,通过胺蒸汽处理,基于自发晶格调节机制,将三维定向薄膜直接转化为二维高结晶构造。由此产生的二维薄膜在集成到自供电光电探测器后,显示出更大的取向微观形态和独特的单色窄带光传感性能。这种包晶石转换方法有望在未来实现高性能光子传感的先进制造。
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来源期刊
CiteScore
17.30
自引率
0.00%
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审稿时长
4 weeks
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