Muhammad Zubair Nawaz*, Asad Khaleeq, Waqar ul Hasan, Waqas Ahmad, Rana Zafar Abbas Manj, Muhammad Shahrukh Saleem, Inaam Ullah, Ayesha Irfan, Israr Masood ul Hasan, Muhammad Yaqub, HM Noor ul Huda Khan Asghar, Gul Naz, Mai Li, Chunrui Wang and Yury Yuryevich Illarionov*,
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引用次数: 0
摘要
半金属二维Ti3C2Tx MXene能否作为一种活性光敏材料而不仅仅是一种电极?一种完全基于2D和1D光活性材料的柔性自供电光电探测器能否克服高暗电流这一限制低光探测的持久挑战?为了解决这些问题,我们报道了一种由二维Ti3C2Tx MXene和一维CdS纳米带异质结构成的柔性自驱动光电探测器,其中这两种成分都积极地促进了弱光探测。与MXene作为被动电极的传统方法不同,Ti3C2Tx在光发生和电荷分离中起主动作用。2D-1D结构有助于在界面上形成强大的内置电场,促进有效的光载流子提取,同时显著抑制暗电流。该器件具有超过≈105的光暗电流比、≈34.42 a /W的高响应率和高达≈5.68 × 1014 Jones的探测率,以及在零偏置下≈7.2/120 μs的快速响应时间。这些结果突出了基于mxene的异质结构在推进高性能、低光、自供电光电平台方面的潜力。
Flexible Self-Powered Ti3C2Tx MXene Nanosheet/CdS Nanobelt Photodetector with Enhanced Responsivity and Photosensitivity
Can the semimetallic 2D Ti3C2Tx MXene function as an active photosensitive material rather than merely an electrode? Can a flexible, self-powered photodetector based entirely on 2D and 1D photoactive materials overcome the persistent challenge of high dark current that often limits low-light detection? Addressing these questions, we report a flexible self-driven photodetector constructed from a 2D Ti3C2Tx MXene and a 1D CdS nanobelt heterojunction, where both constituents actively contribute to low-light detection. Unlike conventional approaches where MXene serves as a passive electrode, Ti3C2Tx here plays an active role in photogeneration and charge separation. The 2D-1D architecture facilitates the formation of a strong built-in electric field across the interface, promoting efficient photocarrier extraction while significantly suppressing dark current. The device achieves an exceptional light-to-dark current ratio exceeding ≈105, a high responsivity of ≈34.42 A/W, and detectivity up to ≈5.68 × 1014 Jones, along with a rapid response time of ≈7.2/120 μs under zero bias. These results highlight the potential of MXene-based heterostructures in advancing high-performance, low-light, self-powered optoelectronic platforms.
期刊介绍:
ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.
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