Zhaochen Li scite author profile

Trions, quasiparticles composed of an electron–hole pair bound to a second electron and/or hole, are many-body states with potential applications in optoelectronics. Trions in monolayer transition metal dichalcogenide (TMD) semiconductors have attracted recent interest due to their valley/spin polarization, strong binding energy, and tunability through external gate control. However, low materials quality (i.e., high defect density) has hindered efforts to understand the intrinsic properties of trions. The low photoluminescence (PL) quantum yield (QY) and short lifetime of trions have prevented harnessing them in device applications. Here, we study the behavior of trions in a series of MoSe2 monolayers, with atomic defect density varying by over 2 orders of magnitude. The QY increases with decreasing defect density and approaches unity in the cleanest material. Simultaneous measurement of the PL lifetime yields both the intrinsic radiative lifetime and the defect-dependent nonradiative lifetime. The long lifetime of ∼230 ps of trions allows direct observation of their diffusion.

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Pilot governance and the rise of China's innovation

Zheng

2020

China Economic Review

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Tunable dielectric properties of mesoporous carbon hollow microspheres via textural properties

Yin²,

Li³

et al. 2018

Nanotechnology

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In this study, mesoporous carbon hollow microspheres (PCHMs) with tunable textural properties have been prepared through a facile hard template etching method. The PCHMs were characterized by scanning electron microscopy, transmission electron microscopy, x-ray diffraction, Raman spectra, and nitrogen adsorption and desorption systems. Uniform PCHMs with shell thickness ranging from 23 nm to 55 nm are realized. PCHMs with different textural properties can regulate dielectric and electromagnetic (EM) wave absorption effectively. The composite of paraffin wax mixed with 10 wt% PCHMs (the shell thickness of PCHMs is 35 nm) exhibits a minimum coefficient value of -53.8 dB at 8.8 GHz, with a thickness of 3.4 mm. Besides, it is remarkable that the effective absorption bandwidth covers all the X band with as low as a 10 wt% filler ratio, compared with other spherical EM wave absorbers. The excellent EM wave absorption capability of PCHMs can be ascribed to the better impendence matching and strong EM wave attenuation constant based on tunable textural properties. Our results provide a facile strategy to tune dielectric properties of spherical carbon absorbers based on textural properties, and can be extended to other spherical absorbers.

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Modeling and estimating aboveground biomass of Dacrydium pierrei in China using machine learning with climate change

Chen

Peng

et al. 2019

Journal of Environmental Management

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Zhaochen Li

Free Trions with Near-Unity Quantum Yield in Monolayer MoSe₂

Pilot governance and the rise of China's innovation

Tunable dielectric properties of mesoporous carbon hollow microspheres via textural properties

Modeling and estimating aboveground biomass of Dacrydium pierrei in China using machine learning with climate change

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Zhaochen Li

Free Trions with Near-Unity Quantum Yield in Monolayer MoSe2

Pilot governance and the rise of China's innovation

Tunable dielectric properties of mesoporous carbon hollow microspheres via textural properties

Modeling and estimating aboveground biomass of Dacrydium pierrei in China using machine learning with climate change

Contact Info

Product

Resources

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Free Trions with Near-Unity Quantum Yield in Monolayer MoSe₂