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    Please use this identifier to cite or link to this item: http://nccur.lib.nccu.edu.tw/handle/140.119/131979

    Title: 鉍-銻-碲熱電薄膜製備及其熱電轉換應用研究
    Fabrication of Bi-Sb-Te Thermoelectric Thin Film and Its Thermoelectric Application
    Authors: 劉威廷
    Liou, Wei-Ting
    Contributors: 陳洋元
    Chen, Yang-Yuan
    Liou, Wei-Ting
    Keywords: 能源
    Thermoelectric Material
    Date: 2020
    Issue Date: 2020-09-02 14:09:17 (UTC+8)
    Reference: [1] Z. Wang et al, "Realization of a wearable miniaturized thermoelectric generator for human body applications," Sensors and Actuators A, vol. 156, pp. 95–102, November 2009.
    [2] S.B. Schaevitz et al, "A Combustion-Based MEMS Thermoelectric Power
    Generator," Transducers ’01 Eurosensors XV , Heidelberg, 2001.
    [3] 國立嘉義大學 ,“電子束蒸鍍系統”國立嘉義大學貴重儀器中心 , 2008. [線上].
    [4] P.H. Holloway, "Gold/chromium metallizations for electronic devices," Gold Bulletin, vol. 12, no. 3, pp. 99–106, September 1979.
    [5] T.O. Akinyemi and O.E. Simolowo, "A Mobile Tropical Cooling System Design Using a Thermoelectric Module," TRANSACTIONS ON MACHINE LEARNING AND ARTIFICIAL INTELLIGENCE, vol. 5, no. 3, pp. 1-12, June 2017.
    [6] 黃振東、徐振庭 ,“熱電材料”科學發展 , 編號 486, pp. 48-53, June 2013.
    [7] 李世光 ,“經濟部施政重點”2016.
    [8] 凌力爾特公司 ,“採用超低電壓轉換器改善從熱電能源的能量收集”. 2013.
    [9] Y.H. Choi et al, “An electrodynamic preconcentrator integrated thermoelectric
    biosensor chip for continuous monitoring of biochemical process,” J. Micromech. Microeng., pp. 1-13, March 2012.
    [10] K. Technologies, 智慧型手錶功耗分析全記錄 , Keysight Technologies, 2015.
    [11] D. Champier et al, "Study of a TE (thermoelectric) generator incorporated in a
    multifunction wood stove," Energy, vol. 36, pp. 1518-1526, January 2011.
    [12] L.E. Bell, "Cooling, Heating, Generating Power, and Recovering Waste Heat with Thermoelectric Systems," Sciece, vol. 321, pp. 1457-1461, September 2008.
    [13] 朱旭山 ,“熱電材料與元件之原理與應用”電子與材料雜誌 , 編號 22, pp. 78-89, 2004.
    [14] M. Enrique, “Thermoelectric Materials: Advances and Applications,” Research
    Gate, May 2015.
    [15] J.C. Hsiao et al, "Anisotropic thermal conductivity of sputtered Bi0.5Sb1.5Te3
    films after current-assisted thermal treatment," Thin Solid Films, no. 645, pp. 93-
    96, January 2018.
    [16] A.R.M. Siddique et al, "A review of the state of the science on wearable
    thermoelectric power generators(TEGs) and their existing challenges," Renewable and Sustainable Energy Reviews, no. 73, pp. 730-744, February 2017.
    [17] R. Bjørk et al, "Analysis of the internal heat losses in a thermoelectric generator,"
    International Journal of Thermal Sciences, no. 85, pp. 12-20, July 2014.
    [18] S.B. Schaevitz, “A MEMS Thermoelectric Generator,” Thesis, September 2000.
    [19] G. J. Snyder and E. S. Toberer, "Complex thermoelectric materials," Nature Materials, vol. 7, pp. 105-114, February 2008.
    [20] S. Liu et al, "Micro-thermoelectric generators based on through glass pillars with high output voltage enabled by large temperature difference," Applied Energy, vol. 225, pp. 600-610, May 2018.
    [21] G. J. Snyder et al, "Thermoelectric microdevice fabricated by a MEMS-like
    electrochemical process," Nature Materials, vol. 2, pp. 528-531, August 2003.
    [22] 蔡信行、孫光中 , 奈米科技導論-基本原理及應用 , 台北: 新文京開發出版股份有限公司 , 2004.
    [23] A. F. Conde et al, "Study of the electronic transport in the semiconducting
    Bi0.5Sb1.5Te3 and Bi1.5Sb0.5Te3 alloys," Journal of Materials Science: Materials in Electronics, vol. 29, no. 18, pp. 15658-15663, September 2018.
    [24] X. Yan et al, "Experimental Studies on Anisotropic Thermoelectric Properties and Structures of n-Type Bi2Te2.7Se0.3," Nano Lett., vol. 10, pp. 3373-3378, July 2010.
    [25] I. Chowdhury et al, "On-chip cooling by superlattice-based thin-film
    thermoelectrics," Nature NanoTechnology, vol. 4, pp. 235-238, April 2009.
    [26] J.P. Carmo et al, "Thermoelectric Microconverter for Energy Harvesting Systems," IEEE Transactions on Industrial Electronics, vol. 57, no. 3, pp. 861-867, April 2010.
    [27] W. Zhang et al, "A High Power Density Micro-Thermoelectric Generator Fabricated by an Integrated Bottom-Up Approach," Journal of MicroelectroMechanical Systems, vol. 25, no. 4, pp. 744-749, August 2016.
    [28] L.M. Goncalves et al, "Thermal co-evaporation of Sb2Te3 thin-films optimized for thermoelectric applications," Thin Solid Films, vol. 519, pp. 4152-4157, March 2011.
    [29] A. Soni et al, "Interface Driven Energy Filtering of Thermoelectric Power in Spark Plasma Sintered Bi2Te2.7Se0.3 Nanoplatelet Composites," Nano Lett., vol. 12, p. 4305−4310, July 2012.
    [30] M. Mizoshiri et al, "Lift-off patterning of thermoelectric thick films deposited by a thermally assisted sputtering method," Appl. Phys. Express, vol. 7, pp. 1-4, April 2014.
    [31] C. Schumacher et al, "Optimizations of Pulsed Plated p and n-type Bi2Te3-Based Ternary Compounds by Annealing in Different Ambient Atmospheres," Adv. Energy Mater., vol. 3, pp. 95-104, August 2012.
    [32] H.J. Lin et al, "Effect of Annealing Temperature on the Thermoelectric Properties of the Bi0.5Sb1.5Te3 Thin Films Prepared by Radio-Frequency Sputtering," Metallurgical and Materials Transactions A, vol. 44, no 5, pp. 2339-2345, January 2013.
    [33] M. Mizoshiri et al, "The effect of Cr buffer layer thickness on voltage generation of thin-film thermoelectric modules," J. Micromech. Microeng., vol. 23, no. 11, pp. 1-9, October 2013.
    [34] Z.B. Tang et al, "A research on thermoelectric generator's electrical performance
    under temperature mismatch conditions for automotive waste heat recovery
    system," Case Studies in Thermal Engineering, vol. 5, p. 143–150, March 2015.
    [35] W.S. Liu et al, "Understanding of the contact of nanostructured thermoelectric n
    type Bi2Te2.7Se0.3 legs for power generation applications," J. Mater. Chem. A, vol. 1, p. 13093–13100, September 2013.
    [36] R. Ditchfield et al, "Semiconductor surface diffusion: Effects of low-energy ion
    bombardment," Physical Review B, vol. 63, pp. 1253171-9, March 2001.
    [37] R. Ditchfield and E.G. Seebauer, "Direct Measurement of Ion-Influenced Surface
    Diffusion," Physical Review Letters, vol. 82, no. 6, pp. 1185-1188, February 1999.
    [38] T.C. Harman et al, "Quantum Dot Superlattice Thermoelectric Materials and
    Devices," Science, vol. 297, pp. 2229-2232, Septempber 2002.
    [39] J.P. Carmo et al, "Thermoelectric generator and solid-state battery for stand-alone microsystems," J. Micromech. Microeng, vol. 20, pp. 1-8, July 2010.
    [40] H. Böttner et al, "New Thermoelectric Components Using Microsystem Technologies," Journal of Microelectrictromechanical System, vol. 13, no. 3, pp. 414-420, June 2004.
    [41] I. Savani et al, "Harnessing thermoelectric power from transient heat sources: Waste heat recovery from silicon production," Energy Conversion and Management, vol. 138, p. 171–182, February 2017.
    Description: 碩士
    Source URI: http://thesis.lib.nccu.edu.tw/record/#G0107755011
    Data Type: thesis
    DOI: 10.6814/NCCU202001470
    Appears in Collections:[應用物理研究所 ] 學位論文

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