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Anisotropic High Carrier Mobility in Violet Phosphorus

Yuanyuan Zheng, Cong Wang, Yubo Tian, Xinyu Wang, Chuanxiu Jiang, Yuyang Zhang, Yiyang Gong, Yangguang Zhong, Shaoli Wang, Shuai Yue, Xinfeng Liu

2025Nano Letters7 citationsDOI

Abstract

Violet phosphorus (VP), with its high carrier mobility, is a promising candidate for next-generation optoelectronic devices. Its anisotropic structure, polarization sensitivity, high photoelectric efficiency, and tunable bandgap enable diverse optical responses, making it ideal for applications such as photodetectors, neural networks, and multimodal systems. However, the basic anisotropic transport properties have not been experimentally revealed. Here, we report the anisotropic transport behavior of VP nanosheets using polarized transient absorption microscopy. The ambipolar mobility along the a -axis reaches ∼2100 cm 2 V –1 s –1, significantly higher than the b -axis mobility of ∼380 cm 2 V –1 s –1, yielding a diffusion anisotropy ratio of 5.5:1. Steady-state optical techniques further indicate that anisotropy in the deformation potential plays a key role in this behavior. This study clarifies the intrinsic mechanism of anisotropic carrier transport in VP and offers theoretical insight for designing angle-sensitive optoelectronic devices.

Topics & Concepts

AnisotropyPhosphorusMaterials scienceBlack phosphorusElectron mobilityOptoelectronicsChemical physicsChemistryOpticsPhysicsMetallurgy2D Materials and ApplicationsPerovskite Materials and ApplicationsGraphene research and applications
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