n型CaMnO_3基氧化物热电材料研究进展被引量：1

Progress in n-type CaMnO_3-based Oxide Thermoelectric Materials

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摘要 n型CaMnO3基氧化物是一种具有优异高温热电性能的n型热电材料体系,从CaMnO3基热电氧化物晶体结构、物性、电子结构、电热传输理论以及Ca位掺杂、Mn位掺杂、Ca和Mn位复合掺杂优化其电热输运性能的角度,综述了n型CaMnO3基热电氧化物的最新研究进展,给出了存在的问题和今后研究的方向. The n-type CaMnO3 oxide based compound is one of the most promising thermoelectric materials due to its high temperature thermoelectric properties. The paper summarizes the CaMnO3 oxide based thermoelectric materials, mainly in terms of the crystal structure, physical properties, electronic structure, thermoelectric transport theory and Ca site doping, Mn site doping, as well as double doping effects on thermoelectric transport properties. And the research issues and orientations in the near future are pointed out.

作者张飞鹏郭志超刘剑王新练张坤书

机构地区河南城建学院数理系北京工业大学材料科学与工程学院山东大学物理学院

出处《新乡学院学报》 2013年第2期105-111,122,共8页 Journal of Xinxiang University

基金国家自然科学基金项目(51202132) 河南省基础与前沿技术研究计划项目(132300410071) 河南城建学院科研基金项目(2013JBS004)

关键词 CaMnO3 物性电热输运热电性能 CaMnO3 physical properties electrical and thermal transport thermoelectric properties

分类号 TN304 [电子电信—物理电子学]

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1DISALVO F J. Thermoelectric and Power Generation[J]. Science, 1999,285: 703-705.
2SALES B C, MANDRUS D, WILLIAMS R K. Filled Skutterudite Antimonides: a New Class of Thermoelectric Materials[J]. Science, 1996,272: 1325-1327.
3GENE Y, HElKE S, JOHNSON D C. Calorimetric Study of the Nucleation of LaxC04Sb'2 Prepared from Modulated Elemental Reactants[J]. Thermochem Acta B, 2002, 933: 1-3.
4PARTIK M, LUTZ H D. Semiempirical Band Structure Calculations on Skutterudite Type Compounds[J]. Chern Mater, 1999,27: 41-44.
5XU X C. On the Optimal Design of Multistage Thermoelectric Coolers[J]. Sernicond Sci Technol, 2002, 17: 625-626.
6WOOD C. Materials for Thermoelectric Energy Conversion[J]. Rep Prog Phys, 1988,51: 459-461.
7EI-GENK S M, HAMED H, CAILLAT T. Efficient Segmented Thermoelectric Unicouples for Space Power Applications[J]. Energ Convers Manage, 2003, 14: 1755-1758.
8KANDYEL H, ELSAYED S. Synthesis, Structural and Physical Properties of New Terbium Containing Tb-Hg-Sr-Ca-Cu-O Superconducting System[J]. J Phys Chern Solids, 2003, 64(5): 731-733.
9OHTA H, KIM S, MUNE Y. Giant Thermoelectric Seebeck Coefficient of a Two-dimensional Electron Gas in SrTi03[J]. Nature, 2007, 6: 129-133.
10WANG Y, SUI Y, REN P, et al. Correlation between the Structural Distortions and Thermoelectric Characteristics in La'.xAxCo03(A = Ca and Sr)[J]. Inorg Chern, 2010, 49: 3216-3218.

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1张丽鹏,于先进,董云会,李德刚.溶胶-凝胶法制备Ca_3Co_4O_9粉的工艺研究[J].硅酸盐通报,2007,26(2):414-416. 被引量：4
2TSAI P H,ZHANG T S, DONELSON R,et al. Power factor en-hancement in Zn - doped Na0.8COO2 [ J]. Alloys Compd,2011, 509(16) :5183 -5186.
3Prevel M. Perez O, Noudem J G. Bulk textured Ca2. 5 ( RE ) O. 5 Co409 ( RE : Pr, Nd, Eu, Dy and Yb) thermoelectric oxides by sin- ter - forging[ J]. Solid State Sci ,2007 (9) :231 - 235.
4LIU J,WANG C L,PENG H,et al. Thermoelectric properties of Dy - doped SrTiO3 ceramics[ J]. Electronic Materials,2012,41 ( 11 ) : 3073 - 3076.
5ZHANG L H,TOSHO T ,OKINAKA N, et al. Thermoelectric proper- ties of combustion - synthesized lanthanum - doped strontium titan- ate[ J]. Materials Transactions,2007,48 (5) : 1079 -1083.
6WANG H C ,WANG C L,SU W B,et al. Doping effect of La and Dy on the thermoelectric properties of SrTiO3 [ J]. Am. Ceram. Soc, 2011,94(3) :838 - 842.
7LAN J L, LIN Y H, FANG H, et al. High - temperature thermoelec- tric behaviors of fine - grained Gd - doped CaMn03 ceramics[ J]. Am. Ceram. Soc,2010,93(8):2121-2124.
8OHTAKI M, ARAKI K, YAMAMOTO K. High thermoelectric per- formance of dually doped ZnO ceramics[J]. Electron. Mater,2009, 38(7) :1234 - 1238.
9JOOD P,MEHTA R J,ZHANG Y L,et al. AI - doped zinc oxide nanocomposites with enhanced thermoelectric properties [ J ]. Nano Lett,2011,11 (10) :4337 -4342.
10EMMANUEL C,SHEKHAR D B, EMMANUEL G,et al. Synthesis of In2 - xGexO3 nanopowders for thermoelectric applications [ J ]. Mater Res, 2012,27 ( 2 ) : 500 - 505.

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1张飞鹏,路清梅,张久兴,张冰心.柠檬酸溶胶凝胶法制备CaMnO_3热电粉体及其表征[J].功能材料,2009,40(6):930-932. 被引量：4
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3贾坤,魏长平,许洁,吕志军.Sm^(3+)掺杂CaMnO_3的制备与热电性能[J].功能材料,2010,41(10):1738-1740. 被引量：2
4封皓,陈敬超,周晓龙.ITO气敏材料的制备和掺杂工艺的研究进展[J].材料导报（纳米与新材料专辑）,2011,25(1):212-214. 被引量：1
5许洁,魏长平,贾坤.M_(0.05)Ca_(0.95)MnO_3的制备及其热电性能[J].中南大学学报（自然科学版）,2011,42(6):1584-1587. 被引量：1
6李利娟.N型CaMnO_3热电材料的制备及性能研究[J].建材世界,2014,35(2):1-6.
7Bin Zhan,Jinle Lan,Yaochun Liu,Yuanhua Lin,Yang Shen,Cewen Nan.High Temperature Thermoelectric Properties of Dy-doped CaMnO_3 Ceramics[J].Journal of Materials Science & Technology,2014,30(8):821-825. 被引量：2
8孙永兴,杨炯,席丽丽,邱吴劼,吴立华,张文清.电热输运微观机制理解与新热电材料设计[J].自然杂志,2016,38(5):327-333. 被引量：1
9曾令可,漆小玲,王慧,刘艳春.氧化物热电材料热导率的研究[J].硅酸盐通报,2009,28(3):525-530. 被引量：9
10张忻,张久兴,路清梅,张艳峰,刘延秦,刘旭.氧化物热电材料研究进展[J].材料导报,2004,18(2):26-29. 被引量：7

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