Login / Signup

Optically Gated Electrostatic Field-Effect Thermal Transistor.

Shouyuan HuangNeil GhoshChang NiuYong P ChenPeide D YeXianfan Xu
Published in: Nano letters (2024)
Dynamic tuning of thermal transport in solids is scientifically intriguing with wide applications for thermal transport control in electronic devices. In this work, we demonstrate a thermal transistor, a device in which heat flow can be regulated using external control, realized in a topological insulator (TI) through the topological surface states. The tuning of thermal transport is achieved by using optical gating of a thin dielectric layer deposited on the TI film. The gate-dependent thermal conductivity is measured using micro-Raman thermometry. The transistor has a large ON/OFF ratio of 2.8 at room temperature and can be continuously and repetitively switched in tens of seconds by optical gating and potentially much faster by electrical gating. Such thermal transistors with a large ON/OFF ratio and fast switching times offer the possibilities of smart thermal devices for active thermal management and control in future electronic systems.
Keyphrases
  • room temperature
  • transcription factor
  • ionic liquid
  • gold nanoparticles
  • molecular dynamics simulations
  • reduced graphene oxide