Ming Ke scite author profile

Two-dimensional van der Waals materials have shown novel fundamental properties and promise for wide applications. Here, we report for the first time an experimental demonstration of the in situ characterization and highly reversible control of the anisotropic thermal conductivity of black phosphorus. We develop a novel platform based on lithium ion batteries that integrates ultrafast optical spectroscopy and electrochemical control to investigate the interactions between lithium ions and the lattices of the black phosphorus electrode. We discover a strong dependence of the thermal conductivity on battery charge states (lithium concentrations) during the discharge/charge process. The thermal conductivity of black phosphorus is reversibly tunable over a wide range of 2.45-3.86, 62.67-85.80, and 21.66-27.58 W·m·K in the cross-plan, zigzag, and armchair directions, respectively. The modulation in thermal conductivity is attributed to phonon scattering introduced by the ionic intercalation in between the interspacing layers and shows anisotropic phonon scattering mechanism based on semiclassical model. At the fully discharged state (x ∼ 3 in LiP), a dramatic reduction of thermal conductivity by up to 6 times from that of the pristine crystal has been observed. This study provides a unique approach to explore the fundamental energy transport involving lattices and ions in the layered structures and may open up new opportunities in controlling energy transport based on novel operation mechanisms and the rational design of nanostructures.

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Complementary doping of van der Waals materials through controlled intercalation for monolithically integrated electronics

Nguyen

Fan

et al. 2020

Nano Res.

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Modelling analysis for design of microshutters with new electrode configuration

Kutyrev

Kotecki

et al. 2022

Sensors and Actuators A: Physical

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Large format next generation microshutter arrays for UV/Visible spectroscopy.

Kutyrev

Greenhouse

Chang

et al. 2021

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Ming Ke

Ionic Intercalation in Two-Dimensional van der Waals Materials: In Situ Characterization and Electrochemical Control of the Anisotropic Thermal Conductivity of Black Phosphorus

Complementary doping of van der Waals materials through controlled intercalation for monolithically integrated electronics

Modelling analysis for design of microshutters with new electrode configuration

Large format next generation microshutter arrays for UV/Visible spectroscopy.

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