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W4384663598 abstract "Artificially engineered 2D materials offer unique physical properties for thermal management, surpassing naturally occurring materials. Here, using van der Waals epitaxy, we demonstrate the ability to engineer extremely insulating thermal metamaterials based on atomically thin lattice-mismatched Bi2Se3/MoSe2 superlattices and graphene/PdSe2 heterostructures with exceptional thermal resistances (70–202 m2 K/GW) and ultralow cross-plane thermal conductivities (0.012–0.07 W/mK) at room temperature, comparable to those of amorphous materials. Experimental data obtained using frequency-domain thermoreflectance and low-frequency Raman spectroscopy, supported by tight-binding phonon calculations, reveal the impact of lattice mismatch, phonon-interface scattering, size effects, temperature, and interface thermal resistance on cross-plane heat dissipation, uncovering different thermal transport regimes and the dominant role of long-wavelength phonons. Our findings provide essential insights into emerging synthesis and thermal characterization methods and valuable guidance for the development of large-area heteroepitaxial van der Waals films of dissimilar materials with tailored thermal transport characteristics." @default.
W4384663598 created "2023-07-20" @default.
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W4384663598 date "2023-07-19" @default.
W4384663598 modified "2023-10-14" @default.
W4384663598 title "Engineering Heat Transport Across Epitaxial Lattice-Mismatched van der Waals Heterointerfaces" @default.
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W4384663598 doi "https://doi.org/10.1021/acs.nanolett.3c01280" @default.
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