Global ETD Search

1	Reflectivity measurements on semi-conductors Horning, Richard Dale January 2011 (has links) Digitized by Kansas State University Libraries Semiconductors--Optical properties Germanium crystals Bismuth telluride
2	An Investigation Into Lead Telluride Lead Sulfide Composites And Bismuth Tin Telluride Alloys For Thermoelectric Applications Jaworski, Christopher M. 08 December 2008 (has links) No description available. Mechanical Engineering thermoelectricity lead telluride bismuth telluride
3	Design and Construction of a Nernst Effect Measuring System Sevin, Warner E 06 August 2013 (has links) An experimental Nernst effect measuring system is designed and constructed. The ability to measure the Nernst effect allows completion of a thermoelectric suite of measurements consisting of electrical conductivity, the Seebeck effect, the Hall effect, and the Nernst effect. This suite of measurements gives information about electron transport, carrier concentration, and electron scattering within a thermoelectric sample. Programs were designed in LabView to control the various instruments in the measuring system. Measurements of the Nernst effect were taken on two thermoelectric samples, bismuth nickel telluride and bismuth antimony telluride. These measurements were taken at both constant temperature and constant magnetic field. An error analysis of the Nernst effect measuring system is also presented, with consideration as to future work that can be done to improve the quality of Nernst effect measurements taken from the system. Condensed Matter Physics
4	Anisotropy of thermoelectric power in bismuth telluride January 1961 (has links) Jane Hodgson Dennis. / "January 15, 1961." "This report is identical with a thesis submitted to the Department of Electrical Engineering, M.I.T., in partial fulfillment of the requirements for the degree of Doctor of Philosophy." / Bibliography: p. 52. / Army Signal Corps Contract No. DA36-039-sc-78108. Dept. of the Army Task 3-99-20-001 and Project 3-99-00-000. TK7855.M41 R43 no.377 Thermoelectricity Bismuth telluride
5	Migration and effects of copper in p-type bismuth telluride January 1960 (has links) Oscar P. Manley. / "September 1, 1960." Based partly on a thesis submitted to the M.I.T. Dept. of Electrical Engineering, June, 1960. / Bibliography: p. 35. / Army Signal Corps Contract DA36-039-sc-78108. Dept. of the Army Task 3-99-20-001 and Project 3-99-00-000. TK7855.M41 R43 no.376 Copper Electric properties Bismuth telluride
6	Electrochemical Deposition of Bismuth Telluride and Antimony Telluride Thin Films for Micro TE-cooler Applications Li, Ming-chan 13 July 2006 (has links) ¡@¡@¡@¡@¡@¡@¡@¡@¡@¡@¡@¡@¡@Abstract This paper presents an integrated batch-produced (Bi, Sb)2Te3 micro thermoelectric cooler(£g-TEC) fabricated by electrochemical MEMS technology. To optimize the thermal conductivity of (Bi, Sb)2Te3 thin layers, a cathode with tunable rotary speed has been designed in the electroplating system to well control the thin film deposition rate and uniformity.The column-type micro thermoelectric thin films fabricated using electrochemical-deposited and patterned using photolithography processes. The thermoelectric thin films made of N-type Bi2Te3 and P-type Sb2Te3 with an average thickness of 5£gm, are connected using Cr/Au layers at the hot junctions and cold junctions. The measured Seebeck coefficient and electrical resistivity of the thermoelectric thin films,are -52£gV/K and 2.52¡Ñ10-5£[m(N-type, power factor of 0.11mW/K2m),and 71£gV/K and 1.91¡Ñ10-5£[m( P-type, power factor of 0.26mW/K2m) after annealing at 250¢J.Under the circumstances that voltage of 2-5 volts is driven, the upper and lower levels electrode shows tentatively that there is 0.7¢Jof difference in temperature. electroplating Bismuth Telluride Micro TE-cooler Antimony Telluride
7	Thermoelectric Cooler Prototype Based on Bismuth Telluride and Aimed for Space Applications / Termoelektrisk kylarprototyp baserad på vismut-tellurid och utformad för rymdtillämpningar Karlsson, Viktor January 2017 (has links) The main goal for this project was to design, manufacture and evaluate a thermoelectric cooler, TEC, prototype. One of the biggest challenges with TECs is that they need to be very reliable and have a long lifetime. The two biggest contributing factors to degradation and breakdown stem from thermal expansion mismatch, resulting in cracks, and from material diffusion between the thermoelectric material and connecting materials. The thermoelectric material in this case is Bismuth telluride, Bi2Te3, obtained from two suppliers. The thermoelectric cooler prototype was successfully manufactured. The prototype, which consisted of 38 thermoelectric elements, showed a maximum temperature difference of 65.1 degrees Celsius. A commercial TEC of the same size had a maximum temperature difference of 68 degrees Celsius. The figure of merit and grain size of p- and n-doped Bismuth Telluride from two different suppliers have been measured as means of testing the thermoelectric material prior to manufacturing, and to compare the suppliers. In this report, the figure of merit is a measure of how well a material converts electrical current to a heat gradient. The figure of merit for bismuth telluride, Bi2Te3, from both suppliers was found to be between 0.4 and 0.8 through the Harman method. Since studies show that smaller grains for Bi2Te3 result in a more durable material, the morphology was investigated. However, no grains could be observed with light optical microscopy with an applied etchant, or scanning electron microscopy. A cohesion tape test showed that Bismuth telluride from one of the suppliers is more fragile than the other. Thermoelectric cooler bismuth telluride Other Materials Engineering Annan materialteknik
8	Electronic Transport in Thermoelectric Bismuth Telluride Nolting, Westly 02 August 2012 (has links) An experimental investigation of the electronic transport properties of bismuth telluride nanocomposite materials is presented. The primary transport measurements are electrical conductivity, Seebeck coefficient and Hall effect. An experimental apparatus for measuring Hall effect and electrical conductivity was designed, constructed and tested. Seebeck coefficient measurements were performed on a commercial instrument. The Hall effect and Seebeck coefficient measurements are two of the most important tools for characterizing thermoelectric materials and are widely used in the semiconductor industry for determining carrier types, carrier concentration and mobility. Further, these transport parameters are used to determine the thermal to electrical conversion efficiency of a thermoelectric material. The Boltzmann transport equation was used to analyze the Seebeck coefficient, carrier mobility and electrical conductivity as a function of carrier concentration for eleven samples. The relationship between the electronic transport and material/composite composition is discussed. bismuth telluride Boltzmann equation carrier concentration conductivity electronic transport Seebeck coefficient Condensed Matter Physics
9	Experimental Measurements of Thermoelectric Phenomena in Nanoparticle Liquid Suspensions (Nanofluids) January 2010 (has links) abstract: This study analyzes the thermoelectric phenomena of nanoparticle suspensions, which are composed of liquid and solid nanoparticles that show a relatively stable Seebeck coefficient as bulk solids near room temperature. The approach is to explore the thermoelectric character of the nanoparticle suspensions, predict the outcome of the experiment and compare the experimental data with anticipated results. In the experiment, the nanoparticle suspension is contained in a 15cm2.5cm2.5cm glass container, the temperature gradient ranges from 20 °C to 60 °C, and room temperature fluctuates from 20 °C to 23°C. The measured nanoparticles include multiwall carbon nanotubes, aluminum dioxide and bismuth telluride. A temperature gradient from 20 °C to 60 °C is imposed along the length of the container, and the resulting voltage (if any) is measured. Both heating and cooling processes are measured. With three different nanoparticle suspensions (carbon nano tubes, Al2O3 nanoparticles and Bi2Te3 nanoparticles), the correlation between temperature gradient and voltage is correspondingly 8%, 38% and 96%. A comparison of results calculated from the bulk Seebeck coefficients with our measured results indicate that the Seebeck coefficient measured for each suspension is much more than anticipated, which indicates that the thermophoresis effect could have enhanced the voltage. Further research with a closed-loop system might be able to affirm the results of this study. / Dissertation/Thesis / M.S. Mechanical Engineering 2010 Engineering Energy Materials Science bismuth telluride nanoparticle suspension Seebeck coefficient thermoelectric
10	Texture Evolution In Materials With Layered Crystal Structures Vempati, Vamsi Krishna 28 May 2021 (has links) No description available. Engineering Materials Science crystalline layers deformation of layered materials texture evolution Bismuth Telluride

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