Cadoff, Irving B.;Miller, Edward, 1932;Cadoff, Irving B.;Miller, Edward, 19...
Book
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Thermoelectric materials and devices : lectures presented during the course on thermoelectric materials and devices sponsored by the Dept. of Metallurgical Engineering in cooperation with the Office of Special Services to Business and Industry, New York University, New York, N.Y., June 1959 and 1960; 01/01/1960
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Cadoff, Irving B.;Miller, Edward;Egli, Paul H.;Balise, Peter L.
Academic Journal
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Physics Today; 1961, Vol. 14 Issue 5, p52-52, 1p
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Thermoelectric materials and devices. Lectures presented during the course on thermoelectric materials and devices sponsored by the Dept. of Metallurgical Engineering in cooperation with the Office of Special Services to Business and Industry, New York University, New York, N. Y., June 1959 and 1960. Edited by Irving B. Cadoff and Edward Miller.
Book
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1960
Available at Available Merrill-Cazier Books (4th Floor North) (Call number: TK2950 .C3)
The use of thermoelectric converters for the production of electricity from biomass.
Doloszeski, M.;Schmidt, A.
Conference
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XVI ICT '97 Proceedings ICT'97 16th International Conference on Thermoelectrics (Cat No97TH8291); 1997, p607-610, 4p
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Surface Microtopography.
Tolansky, S.;Simpson, J. Arol
Academic Journal
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Physics Today; 1961, Vol. 14 Issue 5, p52-54, 3p
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Crystal-structure Analysis.
Buerger, Martin J.;Gillis, J.
Academic Journal
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Physics Today; 1961, Vol. 14 Issue 5, p50-52, 3p
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Analysis of heat dissipation in LED with various adhesives.
Huang, Zi-Gui;Chen, Zheng-Yu
Academic Journal
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Journal of Thermal Science; Sep2011, Vol. 20 Issue 3, p254-259, 6p
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Light-emitting diodes (LEDs) are semiconducting, light producing units, with the advan...
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Analysis of heat dissipation in LED with various adhesives.
Journal of Thermal Science; Sep2011, Vol. 20 Issue 3, p254-259, 6p
Light-emitting diodes (LEDs) are semiconducting, light producing units, with the advantages of small size, long life, low voltage, reduced energy consumption, and high vibration resistance. Unfortunately, most LED output power is converted into heat, with little converted into optical energy. If the heat is not transferred outward from the unit, the LED will overheat and its light emission efficiency, stability, and lifespan will be reduced. Improving LED heat dissipation has become a hot topic. This paper used the finite element method to discuss the temperature change in LED heat sources, using epoxy and AlO adhesives with varying heat transfer coefficients. [ABSTRACT FROM AUTHOR]
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Complementary Index
Front Matter and Index.
Westbrook, J. H.;Fleischer, R. L.
Thin Film Boron Doped Polycrystalline Silicon/sub70%/-germanium/sub30%/ For Thermopiles.
Van Gerwen, P.;Slater, T.;Chevrier, J.B.;Baert, K.;Mertens, R.
Conference
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Proceedings of the International Solid-State Sensors 1995, Issue 2, p210-213, 4p
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Books Received.
Academic Journal
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Physics Today; 1961, Vol. 14 Issue 2, p68-69, 2p
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