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NANOPHOTONICS
SEMICONDUCTOR OPTICS

Materials, Spectroscopies and Physics

Peking University


ABOUT OUR LAB

About our lab: Our research focuses on the development and investigation of
nanoscale optoelectronic and quantum materials. Utilizing advanced microscopy
and ultrafast spectroscopy techniques, we have conducted extensive studies on
the optical and photophysics properties of emergent optoelectronic materials,
including halide perovskites, 2D semiconductors, and noble metal nanostructures.
We explore the fundamental laws and control mechanisms governing their
interaction with light and matter within optical microcavities, focusing on
phenomena such as exciton-polaritons and Bose-Einstein condensates (BEC).
Additionally, we investigate their applications in nanophotonic and quantum
devices, including micro/nanolasers, sensors, and switches.


OUR RESEARCH FOCUSES

We focus on the light-matter interactions, photophysics, and lasing devices of
low-dimensional semiconductors and noble metals.

Optical gain semiconductors

Materials, fabrication and low-threshold micro/nanolasers.

Strong light-matter interaction

Room temperature exciton-polariton, BEC and low-threshold polariton laser.

Optical spectroscopies

We explore the photo-generated carrier dynamics and optical spectroscopy of
optoelectronic functional materials.


PUBLICATIONS

Giant Second Harmonic Generation in Supertwisted WS2 Spirals Grown in Step-Edge
Particle-Induced Non-Euclidean Surfaces
Cryogenic Electron-Beam Writing for Perovskite Metasurface
Exciton polariton condensation from bound states in the continuum at room
temperature
Boosting exciton mobility approaching Mott-Ioffe-Regel limit in
Ruddlesden−Popper perovskites by anchoring the organic cation
Quasi-two dimensional Ruddlesden-Popper halide perovskites for laser
applications
Giant Enhancement of Second-Harmonic Generation of Indium Selenide on Planar Au

More Publications >


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