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ACS Biomaterials Science & Engineering, 2023
MXene materials, which consist of nitrides, carbides, or carbonitrides of transition metals, possess a distinctive multilayered structure resulting from the specific etching of the "A" layer from MAX phase precursors. This unique structure allows for tunable properties through intercalation and surface modification.
Moein Safarkhani +3 more
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MXene materials, which consist of nitrides, carbides, or carbonitrides of transition metals, possess a distinctive multilayered structure resulting from the specific etching of the "A" layer from MAX phase precursors. This unique structure allows for tunable properties through intercalation and surface modification.
Moein Safarkhani +3 more
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High Throughput Nanoimaging of Thermal Conductivity and Interfacial Thermal Conductance
Nano Letters, 2022Thermal properties of materials are often determined by measuring thermalization processes; however, such measurements at the nanoscale are challenging because they require high sensitivity concurrently with high temporal and spatial resolutions. Here, we develop an optomechanical cantilever probe and customize an atomic force microscope with low ...
Mingkang Wang +8 more
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Thermal Conductivities and Interfacial Thermal Conductance of 2D WSe2
2020 IEEE 15th International Conference on Nano/Micro Engineered and Molecular System (NEMS), 2020Atomically thin materials like graphene and semiconducting transition metal dichalcogenides (TMDCs) have drawn broad interest in recent years, provoking investigation into multiple properties. In this work, we used the Raman optothermal technique to measure the thermal transport properties of a popular TMDC material WSe2, in the single-atomic layer (1L)
Yingtao Wang +5 more
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Physica Status Solidi (a), 1983
The thermal conductivity of HgSe is measured at low temperatures. The pronounced depression in the magnitude of the thermal conductivity above 4 K and other anomalous behaviour observed by other workers at higher temperatures are explained by taking into account the additional scattering of phonons by extended defects or clusters in Callaway's ...
S. M. Wasim, B. Fernández, R. Aldana
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The thermal conductivity of HgSe is measured at low temperatures. The pronounced depression in the magnitude of the thermal conductivity above 4 K and other anomalous behaviour observed by other workers at higher temperatures are explained by taking into account the additional scattering of phonons by extended defects or clusters in Callaway's ...
S. M. Wasim, B. Fernández, R. Aldana
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Thermal Conductivity of Glycine
Nature, 1967RECENTLY it has been suggested1–3 that electron spin resonance studies of irradiated amino-acids reveal thermal effects as well as directly induced free radicals. The model proposed is that absorption of radiation energy may lead to a localized heating of small regions; this may allow radical reactions to take place at a rate characteristic of a much ...
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The thermal conductivity of metals
Mathematical Proceedings of the Cambridge Philosophical Society, 1938The methods used to measure separately the electronic and lattice heat conductivities κeand κgin a metal are reviewed, and it is pointed out that care is necessary in interpreting the results in view of the underlying assumptions. The equations given by Wilson for κeand for the electrical conductivity σ are used to plot the theoretical values of the ...
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The thermal conductivity of leaves
Planta, 1975Thermal conductivities of fresh leaves, both unmodified and infiltrated with water, were measured. Samples were placed between silver plates of known and differing temperatures, and the time required to boil off a constant volume of liquid was measured. The species used are evergreens: Eucalyptus globulus Labill.
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Thermal Conductivity. Part II.: Thermal Conductivity of Badly-conducting Solids
Proceedings of the Physical Society of London, 1914The thermal conductivities of a selection of non-metals at 20°C. and 100°C. have been determined by precisely the same method, and in the main the same apparatus as was recently employed by the author in the determination of the "Thermal conductivity of some of the rarer metals and alloys." The substances treated were in the form of accurately turned ...
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2004
When different portions of a solid are at different temperatures, thermal energy is transported from the warmer to the cooler regions. The thermal conductivity coefficient provides a quantitative measure of the rate at which thermal energy is transported along the thermal gradient.
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When different portions of a solid are at different temperatures, thermal energy is transported from the warmer to the cooler regions. The thermal conductivity coefficient provides a quantitative measure of the rate at which thermal energy is transported along the thermal gradient.
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Thermal conductivity of AgInTe2
Physica Status Solidi (a), 1981C. Bellabarba, S. M. Wasim
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