Read Online Enhanced thermoelectric figure of merit in p-type BiSbTeSe alloy with ZnSb addition - Zhang T.; Jiang J.; Xiao Y.; Zhai Y.; Yang S.; All authors file in ePub
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95 in p-type nanostructured bulk silicon germanium (sige) alloys is achieved, which is about 90% higher than what is currently used in space flight missions, and 50% higher than the reported record in p-type sige alloys.
Read highly enhanced thermoelectric figure of merit of a β-sic nanowire with a nanoelectromechanical measurement approach, applied physics a: materials science processing on deepdyve, the largest online rental service for scholarly research with thousands of academic publications available at your fingertips.
Statistical process control (spc) enhances the feedback control option. Statistical process control, measures process capability and automatically adjusts.
Significantly enhanced thermoelectric figure of merit of p-type mg 3 sb 2-based zintl phase compounds via nanostructuring and employing high energy mechanical milling coupled with spark plasma sintering†.
By exploiting this effect, we demonstrate that the thermoelectric figure of merit can reach values higher than 1 at room temperature in junctions made of gapped graphene materials, for instance, graphene nanoribbons and graphene nanomeshes. The dependence of thermoelectric properties on the junction length is also discussed.
The usefulness of a material in thermoelectric systems is determined by the device efficiency. These are determined by the material's electrical conductivity, thermal conductivity, seebeck coefficient which change with temperature.
Oct 27, 2017 additionally nanostructuring, which reduces the lattice thermal conductivity via enhanced phonon scattering can provide a route to achieve high.
Enhanced thermoelectric figure of merit in edge-disordered zigzag graphene nanoribbons. Phonon transport in large scale carbon-based disordered materials: implementation of an efficient order-n and real-space kubo methodology.
Nanostructured materials have emerged as an alternative to enhance the figure of merit (zt) of thermoelectric (te) devices.
Excitingly, the electrical and thermal conductances are shown not only to be anisotropic, but to exhibit respectively orthogonal.
14 was recorded for the same sample, indicating that the bi-containing sb 2 te 3 and the related alloys are promising materials for more efficient thermoelectric devices. In the present work, the structural and thermoelectrical properties of sbsub2-x/subbisubx/subtesub3/sub samples prepared by the usual.
In order to improve the thermoelectric conversion efficiency and figure of merit, zt, composite materials of organic or inorganic constituents often are considered. The limitation of this approach is set by the effective medium theory, which states that the zt in a composite material cannot exceed the greatest value of any single constituent, if the constituents do not interact.
Feb 4, 2021 abstract bismuth telluride‐based materials are already being commercially developed for thermoelectric (te) cooling devices and power.
The hyperform hpn family of performance additives is designed to enhance processes and results for producers and converters of polyethylene.
Thermoelectric (te) metal oxides overcome crucial disadvantages of traditional heavy-metal-alloy-based te materials, such as toxicity, scarcity, and instability at high temperatures. Here, we report the te properties of metal oxide superlattices, composed from alternating layers of 5% pr3+-doped srtio3−δ (spto) and 20% nb5+-doped srtio3−δ (stno) fabricated using pulsed laser deposition.
Enhanced thermoelectric figure of merit in assembled graphene nanoribbons liangbo liang, eduardo cruz-silva, eduardo costa girão, and vincent meunier phys.
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Nov 25, 2020 we derive a figure of merit (fom) that describes a commonly used passive solution to the infrared optic negative thermal focus shift problem.
1: importance of zt (material figure-of-merit)00:47 thermoelectric effects01:52 maximum cooling of uniform.
95 in p-type nanostructured bulk silicon germanium (sige) alloys is achieved, which is about 90% higher.
The behavior of the electronic and phononic elastic mean free paths points to the possibility of realizing an electron-crystal coexisting with a phonon-glass. The calculated thermoelectric figure of merit (zt) values qualify zigzag graphene nanoribbons as a very promising material for thermoelectric applications.
98 and an enhancement of the average thermoelectric figure of merit by 18% are achieved for the sample with 4 at% mn with respect to the mn-free sample, which can be mainly attributed to the synergistic effects of the band structure modification and the dislocation scattering on phonon transport.
The evom was the first instrument designed specifically to perform routine teer measurement in tissue culture research.
Mar 18, 2021 this has come about through the selection of semiconducting materials with improved electronic properties and a small lattice thermal.
The compound has high figure-of-merit (zt) value due to the combination of anharmonicity, valley degeneracy and ultralow thermal conductivity (at low-dimension). In this work, mos 2 /moo 3 hierarchical structures are prepared by hydrothermal method and it exhibits improved te performance.
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