Ballistic thermal phonons traversing nanocrystalline domains in oriented polyethylene

Thermally conductive polymer crystals are of both fundamental and practical interest for their high thermal conductivity that exceeds that of many metals. In particular, polyethylene fibers and oriented films with uniaxial thermal conductivity exceeding 50 W·m−1·K−1 have been reported recently, stim...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2019-08, Vol.116 (35), p.17163-17168
Hauptverfasser:	Robbins, Andrew B., Drakopoulos, Stavros X., Martin-Fabiani, Ignacio, Ronca, Sara, Minnich, Austin J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Crystal structure Crystals Domains Fibers Heat conductivity Heat transfer Metals Nanocrystals Phonons Physical Sciences Polyethylene Polyethylene films Polymers Small angle X ray scattering Spectroscopy Thermal conductivity Transport processes X-ray scattering
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creator	Robbins, Andrew B. Drakopoulos, Stavros X. Martin-Fabiani, Ignacio Ronca, Sara Minnich, Austin J.
description	Thermally conductive polymer crystals are of both fundamental and practical interest for their high thermal conductivity that exceeds that of many metals. In particular, polyethylene fibers and oriented films with uniaxial thermal conductivity exceeding 50 W·m−1·K−1 have been reported recently, stimulating interest into the underlying microscopic thermal transport processes. While ab initio calculations have provided insight into microscopic phonon properties for perfect crystals, such properties of actual samples have remained experimentally inaccessible. Here, we report the direct observation of thermal phonons with mean free paths up to 200 nm in semicrystalline polyethylene films using transient grating spectroscopy. Many of the mean free paths substantially exceed the crystalline domain sizes measured using small-angle X-ray scattering, indicating that thermal phonons propagate ballistically within and across the nanocrystalline domains; those transmitting across domain boundaries contribute nearly one-third of the thermal conductivity. Our work provides a direct determination of thermal phonon propagation lengths in molecular solids, yielding insights into the microscopic origins of their high thermal conductivity.
doi_str_mv	10.1073/pnas.1905492116
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subjects	Crystal structure Crystals Domains Fibers Heat conductivity Heat transfer Metals Nanocrystals Phonons Physical Sciences Polyethylene Polyethylene films Polymers Small angle X ray scattering Spectroscopy Thermal conductivity Transport processes X-ray scattering
title	Ballistic thermal phonons traversing nanocrystalline domains in oriented polyethylene
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