Towards tunable and scalable black phosphorus photodetectors

迈向可调谐和可扩展的黑磷光电探测器

• 批准号: 506808-2017
• 负责人: KénaCohen, Stéphane
• 金额: $ 15.84万
• 依托单位: École Polytechnique de Montréal
• 依托单位国家: 加拿大
• 项目类别: Strategic Projects - Group
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=694609
• 关键词: Towards; tunable; scalable; black; phosphorus

Black phosphorus is a stable allotrope of phosphorus that exhibits a layered structure that can be exfoliated,like graphene, down to a single monolayer. This elemental 2D semiconductor offers several distinctivefeatures: remarkably high carrier mobilities, an anisotropic band structure, and a direct gap that efficientlyabsorbs light. In addition, BP offers two characteristics unmatched by any other 2D or bulk materials: a tunabledirect bandgap from the mid-infrared to the visible via the sample thickness and the ability to dynamically tunethe gap through an applied electric field. These characteristics present unique opportunities for thedevelopment of low-cost photodetectors with enhanced responsivities and operating frequencies in thetechnologically important infrared region of the spectrum. In close partnership with Excelitas, one of the mostimportant photodetector manufacturers in the world, we will develop a number of infrared photodetectorarchitectures based on BP. In particular, we will develop electric-field tunable BP photodetectors to extend theintrinsic spectral range of BP beyond 4 microns, we will enhance their sensitivity by using optical metasurfacesand finally we will develop low-cost large-area BP detectors using solution-based processing of BPnanoparticles. Black phosphorus detectors will have potential applications in telecommunications,spectroscopy, range finding and thermal imaging. Within the context of this Project, we will specificallybenchmark BP tunable detectors as potential trace gas sensors.

黑磷是磷的稳定同素异形体，具有可以像石墨烯一样剥离至单个单层的层状结构。这种元素二维半导体具有几个独特的特征：非常高的载流子迁移率、各向异性的能带结构以及有效吸收光的直接间隙。此外，BP 还具有任何其他 2D 或块状材料无法比拟的两个特性：通过样品厚度从中红外到可见光的可调谐直接带隙，以及通过施加的电场动态调整带隙的能力。这些特性为开发低成本光电探测器提供了独特的机会，这些光电探测器在技术上重要的红外光谱区域具有增强的响应度和工作频率。我们将与全球最重要的光电探测器制造商之一Excelitas密切合作，开发多种基于BP的红外光电探测器架构。特别是，我们将开发电场可调谐BP光电探测器，将BP的本征光谱范围扩展到4微米以上，我们将通过使用光学超表面来提高其灵敏度，最后我们将使用基于溶液的处理技术开发低成本大面积BP探测器。 BP纳米颗粒。黑磷探测器将在电信、光谱学、测距和热成像领域具有潜在的应用。在该项目的背景下，我们将专门对 BP 可调谐探测器作为潜在的痕量气体传感器进行基准测试。