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Programmable WSe<sub>2</sub> 2D Lateral p‐n Junctions Controlled by Dual Floating Gates

Nuertai Jiazila, Peng Song, Chijun Wei, Xuanye Liu, Hui Gao, Jian Sun, Chengze Du, Hui Guo, Haitao Yang, Lihong Bao, Hongjun Gao

2025Advanced Functional Materials8 citationsDOI

Abstract

Abstract 2D transition metal dichalcogenides (TMDs) materials with inherent flexibility, transparency, and sizable bandgap have gained significant attention as promising candidates for future semiconductor nanodevices. However, complementary doping in these 2D semiconductors remains a challenge because conventional ion implantation can lead to permanent damage to the atomically thin 2D channels. Here, programmable WSe 2 2D lateral p‐n homojunction controlled by dual floating gates on a SiO 2 /Si substrate, achieving a rectification ratio of ≈10 5 and three dynamically switchable current levels is demonstrated. By injecting charges into two floating gates by applying voltage pulses with different polarities, lateral p‐n, n‐p, n‐n, p‐p homojunction can be formed. The ideality factors for the p‐n and n‐p junctions are extracted as ≈1.56 and ≈1.57, respectively. The WSe 2 p‐n homojunction shows a maximum photovoltage responsivity of 6.67 × 10 9 V W −1 under a weak light power of 0.09 nW. These results demonstrate outstanding electrical and optoelectronic properties in the programmable 2D lateral p‐n junctions, establishing a solid foundation for the development of future non‐volatile reconfigurable devices.

Topics & Concepts

HomojunctionMaterials scienceOptoelectronicsRectificationResponsivitySemiconductorp–n junctionSubstrate (aquarium)Band gapPhotodiodeDopingNanotechnologyVoltageElectrical engineeringPhotodetectorOceanographyEngineeringGeology2D Materials and ApplicationsMXene and MAX Phase MaterialsGraphene research and applications
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