Hong Tan scite author profile

Quantitative understanding of 2D atomic layer interface thermal resistance (R) based on Raman characterization is significantly hindered by unknown sample-to-sample optical properties variation, interface-induced optical interference, off-normal laser irradiation, and large thermal-Raman calibration uncertainties. In this work, we develop a novel energy transport state resolved Raman (ET-Raman) to resolve these critical issues, and also consider the hot carrier diffusion, which is crucial but has been rarely considered during interface energy transport study. In ET-Raman, by constructing two steady heat conduction states with different laser spot sizes, we differentiate the effect of R and hot carrier diffusion coefficient (D). By constructing an extreme state of zero/negligible heat conduction using a picosecond laser, we differentiate the effect of R and material's specific heat. In the end, we precisely determine R and D without need of laser absorption and temperature rise of the 2D atomic layer. Seven MoS 2 samples (6.6−17.4 nm) on c-Si are characterized using ET-Raman. Their D is measured in the order of 1.0 cm 2 /s, increasing against the MoS 2 thickness. This is attributed to the weaker in-plane electron−phonon interaction in thicker samples, enhanced screening of long-range disorder, and improved charge impurities mitigation. R is determined as 1.22−1.87 × 10 −7 K•m 2 /W, decreasing with the MoS 2 thickness. This is explained by the interface spacing variation due to thermal expansion mismatch between MoS 2 and Si, and increased stiffness of thicker MoS 2 . The local interface spacing is uncovered by comparing the theoretical Raman intensity and experimental data, and is correlated with the observed R variation.

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Private Sector Training: Who Gets it and What are its Effects?

Lillard¹,

Tan²

2012

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Is Skill-Biased Technological Change Here Yet ? Evidence From Indian Manufacturing In The 1990

Berman¹,

Somanathan²,

Tan³

2005

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The Policy Research Working Paper Series disseminates the findings of work in progress to encourage the exchange of ideas about development issues. An objective of the series is to get the findings out quickly, even if the presentations are less than fully polished. The papers carry the names of the authors and should be cited accordingly. The findings, interpretations, and conclusions expressed in this paper are entirely those of the authors.

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Nonlinear optical tuning of a two-dimensional silicon photonic crystal

et al. 2004

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We use the real (Kerr) and imaginary (two photon absorption) parts of a third order optical nonlinearity to tune the long ͑1.6 m͒ and short wavelength ͑1.3 m͒ band edges of a stop gap in a two-dimensional silicon photonic crystal. From pump-probe reflectivity experiments using 130 fs pulses, we observe that a 2 m pulse induces optical tuning of the 1.3 m edge via the Kerr effect whereas a 1.76 m pulse induces tuning of the 1.6 m band edge via both Kerr and Drude effects with the latter related to two-photon induced generation of free carriers with a lifetime of ϳ900 ps.

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Technology and Firm Size-Wage Differentials in Colombia, Mexico, and Taiwan (China)

Tan

Batra

1997

The World Bank Economic Review

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Hong Tan

Energy Transport State Resolved Raman for Probing Interface Energy Transport and Hot Carrier Diffusion in Few-Layered MoS₂

Private Sector Training: Who Gets it and What are its Effects?

Is Skill-Biased Technological Change Here Yet ? Evidence From Indian Manufacturing In The 1990

Nonlinear optical tuning of a two-dimensional silicon photonic crystal

Technology and Firm Size-Wage Differentials in Colombia, Mexico, and Taiwan (China)

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Hong Tan

Energy Transport State Resolved Raman for Probing Interface Energy Transport and Hot Carrier Diffusion in Few-Layered MoS2

Private Sector Training: Who Gets it and What are its Effects?

Is Skill-Biased Technological Change Here Yet ? Evidence From Indian Manufacturing In The 1990

Nonlinear optical tuning of a two-dimensional silicon photonic crystal

Technology and Firm Size-Wage Differentials in Colombia, Mexico, and Taiwan (China)

Contact Info

Product

Resources

About

Energy Transport State Resolved Raman for Probing Interface Energy Transport and Hot Carrier Diffusion in Few-Layered MoS₂