Litcius/Paper detail

Giant intrinsic photovoltaic effect in one-dimensional van der Waals grain boundaries

Yongheng Zhou, Xin Zhou, Xiang‐Long Yu, Zihan Liang, Xiaoxu Zhao, Taihong Wang, Jinshui Miao, Xiaolong Chen

2024Nature Communications24 citationsDOIOpen Access PDF

Abstract

Abstract The photovoltaic effect lies at the heart of eco-friendly energy harvesting. However, the conversion efficiency of traditional photovoltaic effect utilizing the built-in electric effect in p-n junctions is restricted by the Shockley-Queisser limit. Alternatively, intrinsic/bulk photovoltaic effect (IPVE/BPVE), a second-order nonlinear optoelectronic effect arising from the broken inversion symmetry of crystalline structure, can overcome this theoretical limit. Here, we uncover giant and robust IPVE in one-dimensional (1D) van der Waals (vdW) grain boundaries (GBs) in a layered semiconductor, ReS 2 . The IPVE-induced photocurrent densities in vdW GBs are among the highest reported values compared with all kinds of material platforms. Furthermore, the IPVE-induced photocurrent is gate-tunable with a polarization-independent component along the GBs, which is preferred for energy harvesting. The observed IPVE in vdW GBs demonstrates a promising mechanism for emerging optoelectronics applications.

Topics & Concepts

Photocurrentvan der Waals forceAnomalous photovoltaic effectPoint reflectionPhotovoltaic systemSemiconductorMaterials scienceGrain boundaryCondensed matter physicsOptoelectronicsPhotovoltaic effectPhysicsElectrical engineeringDielectricQuantum mechanicsComposite materialFerroelectricityMoleculeMicrostructureEngineering2D Materials and ApplicationsTopological Materials and PhenomenaGraphene research and applications
Giant intrinsic photovoltaic effect in one-dimensional van der Waals grain boundaries | Litcius