2020
DOI: 10.1021/acsami.0c03978
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Bulk-like Intrinsic Phonon Thermal Conductivity of Micrometer-Thick AlN Films

Abstract: Aluminum nitride (AlN) has garnered much attention due to its intrinsically high thermal conductivity. However, engineering thin films of AlN with these high thermal conductivities can be challenging due to vacancies and defects that can form during the synthesis. In this work, we report on the cross-plane thermal conductivity of ultra-high-purity single-crystal AlN films with different thicknesses (∼3–22 μm) via time-domain thermoreflectance (TDTR) and steady-state thermoreflectance (SSTR) from 80 to 500 K. A… Show more

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Cited by 29 publications
(40 citation statements)
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“…As discussed extensively in recent literature, TDTR and FDTR have failed to measure the thermal conductivities of Si at low temperatures due to obfuscations from thermal boundary resistances, non-equilibrium processes, and limiting heater length scales. Similar phenomena have also been reported for several other high thermal conductivity crystals and thick alloys. We note that though TDTR fails for Si and several other crystals, the thermal conductivity of sapphire and AlN can be accurately measured by TDTR at low temperatures. ,, The nature of such material specific failure of TDTR is an active area of research , and beyond the scope of this work. However, due to the measurement time and length scales, SSTR measurements are less sensitive to the above-mentioned limitations.…”
Section: Results and Discussionsupporting
confidence: 73%
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“…As discussed extensively in recent literature, TDTR and FDTR have failed to measure the thermal conductivities of Si at low temperatures due to obfuscations from thermal boundary resistances, non-equilibrium processes, and limiting heater length scales. Similar phenomena have also been reported for several other high thermal conductivity crystals and thick alloys. We note that though TDTR fails for Si and several other crystals, the thermal conductivity of sapphire and AlN can be accurately measured by TDTR at low temperatures. ,, The nature of such material specific failure of TDTR is an active area of research , and beyond the scope of this work. However, due to the measurement time and length scales, SSTR measurements are less sensitive to the above-mentioned limitations.…”
Section: Results and Discussionsupporting
confidence: 73%
“…The AlN thin films used in this work are grown on sapphire substrates using metal–organic chemical vapor deposition (MOCVD). , We study three AlN films with thicknesses of 3.05, 3.75, and 6 μm. The AlN films of this study and those of Koh et al were grown in the same batch. Scanning transmission electron microscopy (STEM) reveals the existence of a nucleation layer near the AlN/sapphire interface in all samples, as shown in Supporting Information Figure S1.…”
Section: Results and Discussionmentioning
confidence: 99%
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“…They improved the crystalline quality of AlN/sapphire by introducing air-voids near the AlN/sapphire interface, which allowed for the growth of high-quality and crack-free AlN films with a thickness >15 µm. The physical thought is similar to that which we mentioned in the MSG growth technique section [114,115]. Meanwhile, the high growth temperature and high-purity precursors effectively suppressed the incorporation of impurities such as O and C. As a result, the TDD values were estimated to be ~(1-3) × 10 8 cm −2 by counting etching pit densities.…”
Section: Thermal Conductivity Control Of Alnsupporting
confidence: 52%