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Results 1 to 25 of 1934

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An anomalous wave-like kinetic energy transport in graphene nanoribbons at high heat fluxKAI ZHENG; LIYING WANG; SUYUAN BAI et al.Physica. B, Condensed matter. 2014, Vol 434, pp 64-68, issn 0921-4526, 5 p.Article

Prediction and measurement of thermal transport across interfaces between semiconductor and adjacent layersZHAOLIANG WANG; XIA TIAN; JINGUO LIANG et al.International journal of thermal sciences. 2014, Num 79, pp 266-275, issn 1290-0729, 10 p.Article

Anisotropic thermal conductivity of hydrogen deuteride crystal for polarized proton target developmentUTSURO, M; KUWAI, T; OHTA, T et al.Physica. B, Condensed matter. 2013, Vol 418, pp 36-40, issn 0921-4526, 5 p.Article

Effects of a grain boundary loop on the thermal conductivity of graphene: A molecular dynamics studyKHOSRAVIAN, N; SAMANI, M. K; LOH, G. C et al.Computational materials science. 2013, Vol 79, pp 132-135, issn 0927-0256, 4 p.Article

Enhanced low-temperature thermal conductance by quantum dot made of material with high sound velocity in a three-dimensional semiconductor nanowireWANG, Xin-Jun; PENG, Xiao-Fang.Physica. B, Condensed matter. 2013, Vol 411, pp 48-51, issn 0921-4526, 4 p.Article

Negative differential thermal resistance in coupled rotor latticesAN, M; CHEN, Q. Y; AI, B. Q et al.The European physical journal. B, Condensed matter physics (Print). 2013, Vol 86, Num 8, issn 1434-6028, 341.1-341.4Article

Probabilistic thermal conductivity analysis of dense stabilized zirconia ceramicsPENNEC, F; ALZINA, A; NAÏT-ALI, B et al.Computational materials science. 2013, Vol 67, pp 207-215, issn 0927-0256, 9 p.Article

A molecular dynamics study of the thermal conductivity of nanoporous silica aerogel, obtained through negative pressure rupturingNG, T. Y; YEO, J. J; LIU, Z. S et al.Journal of non-crystalline solids. 2012, Vol 358, Num 11, pp 1350-1355, issn 0022-3093, 6 p.Article

Graphene―Multilayer Graphene Nanocomposites as Highly Efficient Thermal Interface MaterialsSHAHIL, Khan M. F; BALANDIN, Alexander A.Nano letters (Print). 2012, Vol 12, Num 2, pp 861-867, issn 1530-6984, 7 p.Article

Laser Short-Pulse Interaction of Aluminum and Silicon FilmsMANSOOR, S. Bin; YILBAS, B. S.Journal of thermophysics and heat transfer. 2012, Vol 26, Num 3, pp 523-530, issn 0887-8722, 8 p.Article

Temperature dependence of thermal conductance between aluminum and waterSAM HUANG, H; ROY, Ajit K; VARSHNEY, Vikas et al.International journal of thermal sciences. 2012, Vol 59, pp 17-20, issn 1290-0729, 4 p.Article

Unexpected large thermal rectification in asymmetric grain boundary of grapheneCAO, Hai-Yuan; HONGJUN XIANG; GONG, Xin-Gao et al.Solid state communications. 2012, Vol 152, Num 19, pp 1807-1810, issn 0038-1098, 4 p.Article

Heat Transfer at Aluminum-Water Interfaces: Effect of Surface RoughnessHUANG, H. Sam; VARSHNEY, Vikas; WOHLWEND, Jennifer L et al.Journal of nanotechnology in engineering and medicine (Print). 2012, Vol 3, Num 3, issn 1949-2944, 031008.1-031008.6Article

Computation of heats of transport of vacancies in model crystalline solids: IIIDICKENS, K. A. M; GROUT, P. J; LIDIARD, A. B et al.Journal of physics. Condensed matter (Print). 2011, Vol 23, Num 26, issn 0953-8984, 265401.1-265401.6Article

Coupled heat conduction and thermal stress analyses in particulate compositesKHAN, Kamran A; BARELLO, Romina; MULIANA, Anastasia H et al.Mechanics of materials. 2011, Vol 43, Num 10, pp 608-625, issn 0167-6636, 18 p.Article

Measuring the Thermal Conductivity of Porous, Transparent SiO2 Films With Time Domain ThermoreflectanceHOPKINS, Patrick E; KAEHR, Bryan; PHINNEY, Leslie M et al.Journal of heat transfer. 2011, Vol 133, Num 6, issn 0022-1481, 061601.1-061601.8Article

Optical Measurement of Thermal Conductivity Using Fiber Aligned Frequency Domain ThermoreflectanceMALEN, Jonathan A; BAHETI, Kanhayalal; TAO TONG et al.Journal of heat transfer. 2011, Vol 133, Num 8, issn 0022-1481, 081601.1-081601.7Article

The effect of surface roughness on lattice thermal conductivity of silicon nanowiresZAN WANG; ZHONGHUA NI; RUIJIE ZHAO et al.Physica. B, Condensed matter. 2011, Vol 406, Num 13, pp 2515-2520, issn 0921-4526, 6 p.Article

The effects of vacancy defects and nitrogen doping on the thermal conductivity of armchair (10, 10) single-wall carbon nanotubesCHIEN, Shih-Kai; YANG, Yue-Tzu; CHEN, Cha'o-Kuang et al.Solid state communications. 2011, Vol 151, Num 14-15, pp 1004-1008, issn 0038-1098, 5 p.Article

From ballistic to diffusive regimes in heat transport at nano-scalesLEBON, Georgy; GRMELA, Miroslav; DUBOIS, Charles et al.Comptes rendus. Mécanique. 2011, Vol 339, Num 5, pp 324-328, issn 1631-0721, 5 p.Conference Paper

Observation of a two level thermal conductivity in the low-dimensional materialsZAWITSKI, B. M; LITTLETON IV, R. T; LOWHORN, N. D et al.Solid state communications. 2010, Vol 150, Num 29-30, pp 1299-1302, issn 0038-1098, 4 p.Article

Thermal conductivity of SPS consolidated Cu/diamond composites with Cr-coated diamond particlesKE CHU; ZHAOFANG LIU; CHENGCHANG JIA et al.Journal of alloys and compounds. 2010, Vol 490, Num 1-2, pp 453-458, issn 0925-8388, 6 p.Article

Characterization of thermal transport in micro/nanoscale wires by steady-state electro-Raman-thermal techniqueYANAN YUE; ERES, Gyula; XINWEI WANG et al.Applied physics. A, Materials science & processing (Print). 2009, Vol 97, Num 1, pp 19-23, issn 0947-8396, 5 p.Article

Contact mechanics and thermal conductance of carbon nanotube array interfacesCOLA, Baratunde A; JUN XU; FISHER, Timothy S et al.International journal of heat and mass transfer. 2009, Vol 52, Num 15-16, pp 3490-3503, issn 0017-9310, 14 p.Article

A refined finite element analysis on the thermal conductivity of perforated hollow sphere structuresFIEDLER, T; HOSSEINI, S. M. H; BELOVA, I. V et al.Computational materials science. 2009, Vol 47, Num 2, pp 314-319, issn 0927-0256, 6 p.Article

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