WU Jing's GROUP
Nano Electronic & Thermal Transport Lab (NETT)
About NETT
We focus on understanding the unique mesoscopic transport properties of atomically thin 2D materials and related heterostructure systems. By understanding the transport dynamics arising from interactions between electrons, phonons, and photons, as well as the complex interplay of new physical phenomena in 2D materials over a wide range of temperatures, we can effectively manipulate the electrical, thermal, thermoelectric and excitonic transport in these quantum systems at the atomic scale. This in turn can be transformed and developed into scalable novel technological applications in high-performance electronics, energy harvesting, sensing, and computing devices.
Research Interest
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HEAT & THERMOELECTRIC TRANSPORT
IN LOW-DIMENSIONAL SYSTEMS
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ELECTRONIC TRANSPORT IN 2D MATERIALS
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OPTOELECTRONICS OF
2D MATERIALS & HETEROSTRUCTURES
Latest NEWs
08/2023
Congratulations to Ng Hong Kuan for winning the best oral presentation award at the International Conference on Energy, Materials and Phononics (EMP 2023).
01/2023
Dr. WU Jing is named one of the "Nanoscale Emerging Investigators 2023" by the journal, Nanoscale, Royal Society of Chemistry.
12/2022
Our collaborative work "Real-space nanoimaging of hyperbolic shear polaritons in a monoclinic crystal" has been published in Nature Nanotechnology.
12/2022
Farewell YANG Fang!
We wish you all the best.
06/2022
Our work on the role of rippled lattice in suppressing electron-phonon scattering has been published in Nature Electronics. Congratulations to Hong Kuan!
05/2022
Our paper "Modulation of Spin Dynamics in 2D Transition‐Metal Dichalcogenide via Strain‐Driven Symmetry Breaking" has been published in Advanced Science and featured on the Front Cover!