Wei, K; Sui, Y; Xu, Z; Kang, Y; You, J; Tang, Y; Li, H; ... Jiang, T; + view all Wei, K; Sui, Y; Xu, Z; Kang, Y; You, J; Tang, Y; Li, H; Ma, Y; Ouyang, H; Zheng, X; Cheng, X; Jiang, T; - view fewer (2020) Acoustic phonon recycling for photocarrier generation in graphene-WS_{2} heterostructures. Nature Communications , 11 (1) , Article 3876. 10.1038/s41467-020-17728-x.

Preview

Text s41467-020-17728-x.pdf - Published Version Download (3MB) | Preview

Abstract

Electron-phonon scattering is the key process limiting the efficiency of modern nanoelectronic and optoelectronic devices, in which most of the incident energy is converted to lattice heat and finally dissipates into the environment. Here, we report an acoustic phonon recycling process in graphene-WS_{2} heterostructures, which couples the heat generated in graphene back into the carrier distribution in WS_{2}. This recycling process is experimentally recorded by spectrally resolved transient absorption microscopy under a wide range of pumping energies from 1.77 to 0.48 eV and is also theoretically described using an interfacial thermal transport model. The acoustic phonon recycling process has a relatively slow characteristic time (>100 ps), which is beneficial for carrier extraction and distinct from the commonly found ultrafast hot carrier transfer (~1 ps) in graphene-WS_{2} heterostructures. The combination of phonon recycling and carrier transfer makes graphene-based heterostructures highly attractive for broadband high-efficiency electronic and optoelectronic applications.

Download activity - last month

Export as JSONXMLCSV

Download activity - last 12 months

Export as JSONCSVXML

Downloads by country - last 12 months

Export as XMLCSVJSON

Archive Staff Only

View Item