氧化物基热电材料具有高温稳定性、抗氧化性和安全长效等优点而受到人们的广泛关注,但其应用受到了热电性能的限制.本文详细介绍了几种典型氧化物热电体系,如层状钴基氧化物、钙钛矿结构化合物、透明导电氧化物和一些新型氧化物热电材料的研究进展.从能带结构和微观形貌两方面入手进行调节,以达到热电材料热学性能和电学性能的协调统一.分析了氧化物热电材料研究中的主要问题,并对未来的发展提出了一些新的思路.
参考文献
| [1] | SOOTSMAN J R,CHUNG D Y,KANATZIDIS M G.New and old concepts in thermoelectric materials.Angew.Chem.Int.Ed,2009,48(46):8616-8639. |
| [2] | SALES B C,MANDRUS D,CHAKOUMAKOS B C,et al.Filled skutterudite antimonides:electron crystals and phonon glasses.Phys.Rev.B,1997,56(23):15081-15089. |
| [3] | SAKURADA S,SHUTOH N.Effect of Ti substitution on the thermoelectric properties of (Zr,Hf)NiSn half-Heusler compounds.Appl.Phys.Lett.,2005,86(8):082105-1-3. |
| [4] | BEEKMAN M,NOLAS G S.Inorganic clathrate-Ⅱ materials of group 14:synthetic routes and physical properties.J.Mater.Chem.,2008,18(8):842-851. |
| [5] | POUDEL B,HAO Q,MA Y,et al.High-thermoelectric performance of nanostructured bismuth antimony telluride bulk alloys.Science,2008,320(5876):634-638. |
| [6] | HEREMANS J P,JOVOVIC V,TOBERER E S,et al.Enhancement of thermoelectric efficiency in PbTe by distortion of the electronic density of states.Science,2008,321(5888):554-557. |
| [7] | HSU K F,LOO S,GUO F,et al.Cubic AgPbmSbTe2+m:bulk thermoelectric materials with high figure of merit.Science,2004,303(5659):818-821. |
| [8] | DRESSELHAUS M S,CHEN G,TANG M Y,et al.New directions for low-dimensional thermoelectric materials.Adv.Mater.,2007,19(8):1043-1053. |
| [9] | VENKATASUBRAMANIAN R,SIIVOLA E,COLPITTS T,et al.Thin-film thermoelectric devices with high room-temperature figures of merit.Nature,2001,413(6856):597-502. |
| [10] | YU B,ZEBARJADI M,WANG H,et al.Enhancement of thermoelectric properties by modulation-doping in silicon germanium alloy nanocomposites.Nano Lett.,2012,12:2077-2082. |
| [11] | XIE H H,WANG H,PEI Y Z,et al.Beneficial contribution of alloy disorder to electron and phonon transport in half-heusler thermoelectric materials.Adv.Funct.Mater.,2013,23(41):5123-5130. |
| [12] | DUAN B,ZHAI P C,LIU L S,et al.Benificial effect of Se substitution on thermoelectric properties in Co4Sb12-x-yTexSey skutterudites.AIP Conf Proc.,2012,1449:239-242. |
| [13] | DENG L,JIA X P,MA H A,et al.The thermoelectric properties of InxM0.2Co4Sb12 (M=Ba and Pb) double-filled skutterudites.Solid State Communications,2013,163:15-18. |
| [14] | POUDEU P F P,D'ANGELO J,DOWNEY A D,et al.High thermoelectric figure of merit and nanostructuring in bulk p-type Na1-xPbm SbyTem+2.Angew.Chem.Int.Ed,2006,118(23):3835-3839. |
| [15] | CAILLAT T,FLEURIAL J P,BORSHCHEVSKY A.Preparation and thermoelectricproperties of semiconducting Zn4Sb3.J.Phys.Chem.Solids,1997,58(7):1119-1125. |
| [16] | WANG X W,LEE H,LAN Y C,et al.Enhanced thermoelectric figure of merit in nanostructured n-type silicon germanium bulk alloy.Appl.Phys.Lett.,2008,93(19):193121-1-3. |
| [17] | WANG Y,SUI Y,CHENG J G,et al.Comparison of the high temperature thermoelectric properties for Ag-doped and Ag-added Ca3Co4O9.J.Alloys Compd.,2009,477(1/2):817-821. |
| [18] | ITO M,FURUMOTO D.Microstructure and thermoelectric properties of NaxCo2O4/Ag composite synthesized by the polymerized complex method.J.Alloys Compd.,2008,450(1/2):517-520. |
| [19] | KIKUCHI A,OKINAKA N,AKIYAMA T.A large thermoelectric figure of merit of La-doped SrTiO3 prepared by combustion synthesis with post-spark plasma sintering.Scripta Mater.,2010,63(4):407-410. |
| [20] | WANG Y,SUI Y,SU W H.High temperature thermoelectric characteristics of Ca0.9R0.1MnO3 (R=La,Pr,Yb).J.Appl.Phys.,2008,104(9):093703. |
| [21] | OHTAKI M,ARAKI K,YAMAMOTO K.High thermoelectric performance of dually doped ZnO ceramics.J.Electron.Mater.,2009,38(7):1234-1238. |
| [22] | LI J,SUI J H,PEI Y L,et al.A high thermoelectric figure of merit ZT>1 in Ba heavily doped BiCuSeO oxyselenides.Energy Environ.Sci.,2012,5(9):8543-8547. |
| [23] | KAGA H,ASAHI R,TANI T.Thermoelectric properties of highly textured Ca-doped (ZnO)mIn2O3 ceramics.Jpn.J.Appl.Phys.,2004,41(2):37-42. |
| [24] | TERASAKI I,SASAGO Y,UCHINOKURA K.Large thermoelectric power in NaCo2O4 single crystals.Phys.Rev.B,1997,56(20):R12685-R12687. |
| [25] | ZHANG J X,ZHANG Q Y,LIU Y Q,et al.Improved Thermoelectric Properties of Ca3-xBaxCo4O9 (x=0~0.4) Bulks by Sol-Gel and SPS Method.Proc 2006 Int Conf Thermoelectrics,IEEE,2006:66-69. |
| [26] | WANG Y,SUI Y,WANG X J,et al.Enhanced high temperature thermoelectric characteristics of transition metals doped Ca3Co4O9+δ by cold high-pressure fabrication.J.Appl.Phys.,2010,107(3):033708-1-9. |
| [27] | NAGIRA T,ITO M,KATSUYAMA S,et al.Thermoelectric properties of (Na1-yMy)xCo2O4 (M=K,Sr,Y,Nd,Sm and Yb; y=0.01-0.35).JAlloys Compd.,2003,348(1/2):263-269. |
| [28] | ITO M,NAGIRA T,HARA S.Thermoelectric properties of NaxCo2O4 withrare-earth metals doping preparedby polymerized complex method.J.Alloys Compd.,2006,408-412:1217-1221. |
| [29] | WANG 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. |
| [30] | WANG N,HE H C,BAY S,et al.Thermoelectric properties of Nb-doped SrTiO3 ceramics enhanced by potassium titanate nanowires addition.J.Ceram.Soc.Jpn.,2010,118(1383):1098-1101. |
| [31] | WANG Y,SUI Y,WANG X J,et al.Enhancement of thermoelectric ef-ficiency in (Ca,Dy)MnO3-(Ca,Yb)MnO3 solid solutions.Appl.Phys.Lett.,2010,97(5):052109-1-3. |
| [32] | LAN J L,LIN Y H,FANG H,et al.High-temperature thermoelectric behaviors of fine-grained Gd-doped CaMnO3 ceramics.J.Am.Ceram.Soc.,2010,93(8):2121-2124. |
| [33] | WIFF J P,KINEMUCHI Y,KAGA H,et al.Correlations between thermoelectric properties and effective mass caused by lattice distortion in Al-doped ZnO ceramics.J.Eur.Ceram.Soc.,2009,29(8):1413-1418. |
| [34] | KINEMUCHI Y,MIKAMI M,KOBAYASHI K,et al.Thermoelectric properties of nanograined ZnO.J..Electron.Mater.,2010,39(9):2059-2063. |
| [35] | MA N,LI J F,ZHANG B P,et al.Microstructure and thermoelectric properties of Zn1-xAlxO ceramics fabricated by spark plasma sintering.Journal of Physics and Chemistry of Solids,2010,71(9):1344-1349. |
| [36] | LAN J L,LIN Y H,LIU Y,et al.High thermoelectric performance of nanostructured In2O3-based ceramics.J.Am.Ceram.Soc.,2012,95(8):2465 2469. |
| [37] | EMMANUEL C,SHEKHAR D B,EMMANUEL G,et al.Synthesis of In2-xGexO3 nanopowders for thermoelectric applications.J.Mater Res.,2012,27(2):500-505. |
| [38] | LI F,LI J F,ZHAO L D,et al.Polycrystalline BiCuSeO oxide as a potential thermoelectric material.Energy Environ.Sci.,2012,5:7188 7195. |
| [39] | ZHAO L D,BERARDAN D,PEI Y L,et al.Bi1-xSrxCuSeO oxyselenides as promising thermoelectric materials.Appl.Phys.Lett.,2010,97(9):092118-1-3. |
| [40] | OHTA H,SUGIURA K,KOUMOTO K.Recent progress in oxide thermoelectric materials:p-type Ca3Co4O9 and n-type SrTiO3.Inorg.Chem.,2008,47(19):8429-8436. |
| [41] | KOSHIBAE W,TSUTSUI K,MAEKAWA S.Thermopower in cobalt oxides.Phys.Rev.B,2000,62(11):6869-6872. |
| [42] | MASSET A C,MICHEL C,MAIGNAN M,et al.Misfit-layered cobaltite with an anisotropic giant magnetoresistance:Ca3Co4O9.Phys.Rev.B,2000,62(1):166-175. |
| [43] | KLIE R F,QIAO Q,PAULAUSKAS T,et al.Observations of Co4+ in a higher spin state and the increase in the seebeck coefficient of thermoelectric Ca3Co4O9.Phy.Rev.Lett.,2012,108(19):196601-1-3. |
| [44] | PRASOETSOPHA N,PINITSOONTORN S,AMORNKITBAMRUNG V.Synthesis and thermoelectric properties of Ca3Co4O9 prepared by a simple thermal hydro-decomposition method.Electronic Materials Letters,2012,8(3):305-308. |
| [45] | LIN Y H,LAN J L,SHEN Z J,et al.High-temperature electrical transport behaviors in textured Ca3Co4O9-based polycrystalline ceramics.Applied Physics Letters,2009,94(7):072107. |
| [46] | SHIKANO M,FUNAHASHI R.Electrical and thermal properties of single-crystalline (Ca2CoO3)0.7CoO2 with a Ca3Co4O9 structure.Appl.Phys.Lett.,2003,82(12):1851. |
| [47] | LIU Y H,LIN Y H,SHI Z,et al.Preparation of Ca3Co4O9 and improvement of its thermoelectric properties by spark plasma sintering.J.Am.Ceram.Soc.,2005,88(5):1337-1340. |
| [48] | KENFAUI D,BONNEFONT G,CHATEIGNER D,et al.Ca3Co4O9 ceramics consolidated by SPS process:optimisation of mechanical and thermoelectric properties.Materials Research Bulletin,2010,45(9):1240-1249. |
| [49] | KWON O J,JO W,KO KE,et al.Thermoelectric properties and texture evaluation of Ca3Co4O9 prepared by a cost-effective multisheet cofiring technique.J.Mater Sci.,2011,46(9):2887-2894. |
| [50] | LIU Y H,LIN Y H,JIANG L,et al.Thermoelectric properties of Bi3+ substituted Co-based misfit-layered oxides.J.Electroceram.,2008,21(1-4):748-751. |
| [51] | LI S W,FUNAHASHI R,MATSUBARA I,et al.Synthesis and thermoelectric properties of the new oxide materials Ca3-xBixCo4O9+δ (0.0<x<0.75).Chem.Mater.,2000,12(8):2424-2427. |
| [52] | SONG Y,SUN Q,ZHAO L R,et al.Synthesis and thermoelectric power factor of (Ca0.95Bi0.05)3Co4O9/Ag composites.Mater.Chem.Phys.,2009,113(2/3):645-649. |
| [53] | SONG Y,NAN C W.High temperature transport properties of Ag-added (Ca0.975La0.025)3Co4O9 ceramics.Physica B,2011,406(14):2919 2923. |
| [54] | XU J,WEI C P,JIA K.Thermoelectric performance of textured Ca3-xYbxCo4O9-δ ceramics.J.Alloys.Compd.,2010,500(2):227-230. |
| [55] | NONG N V,LIU C J,OHTAKI M.High-temperature thermoelectric properties of late rare earth-doped Ca3Co4O9+δ.J.Alloys Compd.,2011,509(3):977-981. |
| [56] | FUJISHIRO Y,MIYATA M,AWANO M,et al.Characterization of thermoelectric metal oxide elements prepared by the pulse electric-current sintering method.J.Am.Ceram.Soc.,2004,87(10):1890-1894. |
| [57] | LIU P S,CHEN G,CUI Y,et al.High temperature electrical conductivity and thermoelectric power of NaxCoO2.Solid State Ionics,2008,179(39):2308-2312. |
| [58] | PARK K,KO K Y,KIM J G,et al.Microstructure and high-temperature thermoelectric properties of CuO and NiO co-substituted NaCo2O4.Mater Sci.Eng.B,2006,129(1/2/3):200-206. |
| [59] | SEETAWAN T,AMORNKITBAMRUNG V,BURINPRAKHON T,et al.Thermoelectric power and electrical resistivity of Ag-doped Na1.5Co2O4.J.Alloys Compd.,2006,407(1/2):31 4-317. |
| [60] | TSAI P H,ASSADI M,ZHANG T S,et al.Immobilization of Na ions for substantial power factor enhancement:site-specific defect engineering in Na0.8CoO2.J.Phys.Chem.C,2012,116(6):4324-4329. |
| [61] | TSAI P H,NORBY T,TAN T T,et al.Correlation of oxygen vacancy concentration and thermoelectric properties in Na0.73CoO2-δ.Appl.Phys.Lett.,2010,96(14):141905. |
| [62] | WANG L,WANG M,ZHAO D L.Thermoelectric properties of c-axis oriented Ni-substituted NaCoO2 thermoelectric oxide by the citric acid complex method.J.Alloys Compd.,2009,471(1/2):519 523. |
| [63] | TSAI P H,ZHANG T S,DONELSON R,et al.Power factor enhancement in Zn-doped Na0.8CoO2.J.Alloys.Compd.,2011,509(16):5183-5186. |
| [64] | LI N,JIANG Y,LI G H,et al.Self-ignition route to Ag-doped Na1.7Co2O4 and its thermoelectric properties.J.Alloys Compd.,2009,467(1/2):444-449. |
| [65] | YASUKAWA M,SHIGA Y,KONO T.Electrical conduction and thermoelectric properties of perovskite-type BaBi1-xSbxO3.Solid State Communications,2012,152(11):964-967. |
| [66] | SUZUKI T,SAKAI H,TAGUCHI Y,et al.Thermoelectric properties of electron-doped SrMnO3 single crystals with perovskite structure.J.Electronic Materials,2012,41(6):1559-1563. |
| [67] | LIU J,WANG C L,PENG H,et al.Thermoelectric properties of Dy-doped SrTiO3 ceramics.J.Electronic Materials,2012,41(11):3073-3076. |
| [68] | FUKUYADO J,NARIKIYO K,AKAKI M,et al.Thermoelectric properties of the electron-doped perovskites Sr1-xCaxTi1-yNbyO3.Phys.Rev.B,2012,85(7):075112. |
| [69] | HUANG L T,NONG N V,HAN L,et al.High-temperature thermoelectric properties of Ca0.9Y0.1Mn1.xFexO3(0≤x≤0.25).J.Mater.Sci.,2012,48(7):2817-2822. |
| [70] | MENG X W,HAO S,LI J L,et al.Preparation of Ca0.sSm0.2MnO3 powders and effects of calcination temperature on structure and electrical property.Powder Technology,2012,224:96-100. |
| [71] | MUTA H,KUROSAKI K,YAMANAKA S.Thermoelectric properties of rare earth doped SrTiO3.J.Alloys Compd,2003,350(1/2):292-295. |
| [72] | ZHANG L H,TOSHO T,OKINAKA N,et al.Thermoelectric properties of combustion-synthesized lanthanum-doped strontium titanate.Materials Transactions,2007,48(5):1079-1083. |
| [73] | OHTA S,NOMURA T,OHTA H,et al.High-temperature cartier transport and thermoelectric properties of heavily La-or Nb-doped SrTiO3 single crystals.J.Appl.Phys.,2005,97(3):034106. |
| [74] | WANG Y F,LEE K H,HYUGA H,et al.Enhancement of thermoelectric performance in rare earth-doped Sr3Ti2O7 by symmetry restoration of TiO6 octahedra.J.Electroceram.,2010,24(2):76-82. |
| [75] | LAN J L,LIN Y H,MEI A,et al.High-temperature electric properties of polycrystalline La-doped CaMnO3 Ceramics.J.Mater.Sci.Technol.,2009,25(4):535-538. |
| [76] | POPULOH S,TROTTMANN M,AGUIRE M H,et al.Nanostructured Nb-substituted CaMnO3 n-type thermoelectric material prepared in a continuous process by ultrasonic spray combustion.J.Mater.Res.,2011,26(15):1947-1952. |
| [77] | OHTAKI M,TSUBOTA T,EGUCHI K,et al.High-temperature thermoelectric properties of (Zn1.xAlx)O.J.Appl.Phys.,1996,79(3):1816-1818. |
| [78] | YAMAGUCHI H,CHONAN Y,ODA M,et al.Thermoelectric properties of ZnO ceramics co-doped with A1 and transition metals.J.Electron.Mater.,2011,40(5):723-727. |
| [79] | CHENG H,XU X J,HNG H H,et al.Characterization of Al-doped ZnO thermoelectric materials prepared by RF plasma powder processing and hot press sintering.Ceram.Int.,2009,35(8):3067-3072. |
| [80] | JOOD P,MEHTA R J,ZHANG Y L,et al.Al-doped zinc oxide nanocomposites with enhanced thermoelectric properties.Nano Lett.,2011,11(10):4337-4342. |
| [81] | LIU Y,LIN Y H,LAN J L,et al.Thermoelectric Performance of Zn and Nd Co-doped In2O3 ceramics.J.Electronic Materials,2011,40(5):1083-1086. |
| [82] | LIU Y,LIN Y H,XU W,et al.High-temperature transport property of In2-xCexO3(0≤x≤0.10) fine grained ceramics.J.Am.Ceram.Soc.,2012,95(8):2568-2572. |
| [83] | MASUDA Y,OHTA M,SEO W S,et al.Structure and thermoelectric transport properties of isoelectronically substituted (ZnO)5In2O3.J Solid State Chemistry,2000,150(1):221-227. |
| [84] | ISOBE S,TANI T,MASUDA Y,et al.Thermoelectric performance of yttrium-substituted (ZnO)5In2O3 improved through ceramic texturing.Jpn.J.Appl.Phys.,2002,41:731-732. |
| [85] | LI J,SUI J H,BARRETEAU C,et al.Thermoelectric properties of Mg doped p-type BiCuSeO oxyselenides.J.Alloys Comp.,2013,551:649-653. |
| [86] | LIU Y,ZHAO L D,LIU Y C,et al.Remarkable enhancement in thermoelectric performance of BiCuSeO by Cu deficiencies.J.Am.Chem.Soc.,2011,133(50):20112-20115. |
| [87] | RULEOVA P,DRASAR C,LOSTAK P,et al.Thermoelectric properties of Bi2O2Se.Materials Chemistry and Physics,2010,119(1/2):299-302. |
| [88] | SANG H Y,LI J F.Thermoelectric properties of AgSbO3 with defect pyrochlore structure.J.Alloys Compcompd.,2010,493(1/2):678-682. |
| [89] | LI F,LI J F.Effect of Ni substitution on electrical and thermoelectric properties of LaCoO3 ceramics.Ceram.Int.,2011,37(1):105-110. |
| [90] | YANAGIYA S I,NONG N V,XU J X,et al.The effect of (Ag,Ni,Zn)-addition on the thermoelectric properties of copper aluminate.Materials,2010,3(1):318-328. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%