SnSe是近年来新兴的热电材料,由于其具有层状结构、极低的热导率和较高的ZT 值,在中低温阶段是一种很有应用前景的热电材料,因而受到极大的关注。本文对 SnSe 的分子结构、能带结构、输运性能、热电性能特点进行了概述,分析了不同制备方法的优劣,讨论了影响其热电性能和工业化应用的因素,并尝试提出了利用“马赛克”晶体的特点来优化其热电性能的方法。旨在帮助读者对SnSe的结构特点、输运性能和热电性能有一个全面的了解,同时为科研工作者探索提高SnSe的热电性能、寻找具备高ZT 值热电材料提供一个可能的方向。
SnSe is a new thermoelectric material which j ust emerges in recent years.Sinceit haslayered structure, very low thermal conductivity and high ZT,it is a prospect of thermoelectric materials for application in the middle and low temperature range.Thus much attention is paid to optimize its thermoelectric performance.In this review,the SnSe’s molecular structure,band structure and transport properties,thermoelectric character-istics were summarized,the advantages and disadvantages of different processing methods were analyzed;the factors which affected its thermal performance and industrial application were discussed.At last we try to put forward to using the advantage of"Mosaic"crystal to optimize the SnSe’s thermoelectric performance.The pur-pose of this review is to help readers to have a comprehensive understanding of SnSe’s structure,transport properties and thermoelectric characteristics.Meanwhile,for researchers,we aid to provide a possible direction which can improve the SnSe’s thermoelectric performance and search for thermolelectric materials which can gain high ZT.
参考文献
| [1] | Lon E. Bell.Cooling, Heating, Generating Power, and Recovering Waste Heat with Thermoelectric Systems[J].Science,20085895(5895):1457-1461. |
| [2] | Heremans, J.P.;Dresselhaus, M.S.;Bell, L.E.;Morelli, D.T..When thermoelectrics reached the nanoscale[J].Nature nanotechnology,20137(7):471-473. |
| [3] | M. S. Dresselhaus;G. Chen;M. Y. Tang;R. G. Yang;H. Lee;D. Z. Wang;Z. F. Ren;J.-P. Fleurial;P. Gogna.New Directions for Low-Dimensional Thermoelectric Materials[J].Advanced Materials,20078(8):1043-1053. |
| [4] | Li-Dong Zhao;Vinayak P. Dravid;Mercouri G. Kanatzidis.The panoscopic approach to high performance thermoelectrics[J].Energy & environmental science: EES,20141(1):251-268. |
| [5] | 何琴玉;李维谦;Hao Qing;李炜;王银珍;曾葆青.热电材料发电的商业化进展与前景展望[J].华南师范大学学报(自然科学版),2015(5):9-17. |
| [6] | G.JEFFREY SNYDER;ERIC S.TOBERER.Complex thermoelectric materials[J].Nature materials,20082(2):105-114. |
| [7] | Yanzhong Pei;Xiaoya Shi;Aaron LaLonde;Heng Wang;Lidong Chen;G. Jeffrey Snyder.Convergence of electronic bands for high performance bulk thermoelectrics[J].Nature,2011TN.7345(TN.7345):66-69. |
| [8] | Aaron D. LaLonde;Yanzhong Pei;Heng Wang;G. Jeffrey Snyder.Lead telluride alloy thermoelectrics[J].Materials Today,201111(11):526-532. |
| [9] | Joseph P. Heremans;Vladimir Jovovic;Eric S. Toberer;Ali Saramat;Ken Kurosaki;Anek Charoenphakdee;Shinsuke Yamanaka;G. Jeffrey Snyder.Enhancement of Thermoelectric Efficiency in PbTe by Distortion of the Electronic Density of States[J].Science,20085888(5888):554-557. |
| [10] | Yanzhong Pei;Aaron LaLonde;Shiho Iwanaga;G. Jeffrey Snyder.High thermoelectric figure of merit in heavy hole dominated PbTe[J].Energy & environmental science: EES,20116(6):2085-2089. |
| [11] | Aaron D. LaLonde;Yanzhong Peif;G. Jeffrey Snyder.Reevaluation of PbTei_xIx as high performance n-type thermoelectric material[J].Energy & environmental science: EES,20116(6):2090-2096. |
| [12] | Zhang, Q.;Liao, B.;Lan, Y.;Lukas, K.;Liu, W.;Esfarjani, K.;Opeil, C.;Broido, D.;Chen, G.;Ren, Z..High thermoelectric performance by resonant dopant indium in nanostructured SnTe[J].Proceedings of the National Academy of Sciences of the United States of America,201333(33):13261-13266. |
| [13] | Bao Y;Liu WL;Shamsa M;Alim K;Balandin AA;Liu JL.Electrical and thermal conductivity of Ge/Si quantum dot superlattices[J].Journal of the Electrochemical Society,20056(6):G432-G435. |
| [14] | Bed Poudel;Qing Hao;Yi Ma;Yucheng Lan;Austin Minnich;Bo Yu;Xiao Yan;Dezhi Wang;Andrew Muto;Daryoosh Vashaee.High-Thermoelectric Performance of Nanostructured Bismuth Antimony Telluride Bulk Alloys[J].Science,20085876(5876):634-638. |
| [15] | On the Design of High-Efficiency Thermoelectric Clathrates through a Systematic Cross-Substitution of Framework Elements[J].Advanced functional materials,20105(5):755. |
| [16] | Nolas GS.;Slack GA.;Schujman SB.;Cohn JL..Semiconducting Ge clathrates: Promising candidates for thermoelectric applications[J].Applied physics letters,19982(2):178-180. |
| [17] | E. M. Levin;S. L. Bud'ko;K. Schmidt-Rohr.Enhancement of Thermopower of TAGS-85 High-Performance Thermoelectric Material by Doping with the Rare Earth Dy[J].Advanced functional materials,201213(13):2766-2774. |
| [18] | Hu, Xiaokai;Barnett, Matthew R.;Yamamoto, Atsushi.Synthesis of Al-doped Mg2Si1-xSnx compound using magnesium alloy for thermoelectric application[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2015:1060-1065. |
| [19] | Franck Gascoin;Sandra Ottensmann;Daniel Stark;Sossina M. Haiele;G. Jeffrey Snyder.Zintl Phases as Thermoelectric Materials: Tuned Transport Properties of the Compounds Ca_xYb_(1-x)Zn_2Sb_2[J].Advanced functional materials,200511(11):1860-1864. |
| [20] | Qinyong Zhang;Hui Wang;Weishu Liu;Hengzhi Wang;Bo Yu;Qian Zhang;Zhiting Tian;George Ni;Sangyeop Lee;Keivan Esfarjani;Gang Chen;Zhifeng Ren.Enhancement of thermoelectric figure-of-merit by resonant states of aluminium doping in lead selenide[J].Energy & environmental science: EES,20121(1):5246-5251. |
| [21] | Eric S. Toberer;Shawna R. Brown;Teruyuki Ikeda;Susan M. Kauzlarich;G. Jeffrey Snyder.High thermoelectric efficiency in lanthanum doped Yb_(14)MnSb_(11)[J].Applied physics letters,20086(6):062110-1-062110-3-0. |
| [22] | Enhancement of Thermoelectric Figure-of-Merit by a Bulk Nanostructuring Approach[J].Advanced functional materials,20103(3):357. |
| [23] | Payam Norouzzadeh;Zahra Zamanipour;Jerzy S. Krasinski;Daryoosh Vashaee.The effect of nanostructuring on thermoelectric transport properties of p-type higher manganese silicide MnSi_(1.73)[J].Journal of Applied Physics,201212(12):124308-1-124308-7. |
| [24] | Hu, Lipeng;Zhu, Tiejun;Liu, Xiaohua;Zhao, Xinbing.Point Defect Engineering of High-Performance Bismuth-Telluride-Based Thermoelectric Materials[J].Advanced functional materials,201433(33):5211-5218. |
| [25] | Christopher J. Vineis;Ali Shakouri;Arun Majumdar;Mercouri C. Kanatzidis.Nanostructured Thermoelectrics: Big Efficiency Gains from Small Features[J].Advanced Materials,201036(36):3970-3980. |
| [26] | Kanishka Biswas;Jiaqing He;Ivan D. Blum;Chun-I Wu;Timothy P. Hogan;David N. Seidman;Vinayak P. Dravid;Mercouri G. Kanatzidis.High-performance bulk thermoelectrics with all-scale hierarchical architectures[J].Nature,2012Sep.20 TN.7416(Sep.20 TN.7416):414-418. |
| [27] | Ibá?ez, M.;Zamani, R.;Gorsse, S.;Fan, J.;Ortega, S.;Cadavid, D.;Morante, J.R.;Arbiol, J.;Cabot, A..Core-shell nanoparticles as building blocks for the bottom-up production of functional nanocomposites: PbTe-PbS thermoelectric properties[J].ACS nano,20133(3):2573-2586. |
| [28] | Il Kim, Sang;Lee, Kyu Hyoung;Mun, Hyeon A.;Kim, Hyun Sik;Hwang, Sung Woo;Roh, Jong Wook;Yang, Dae Jin;Shin, Weon Ho;Li, Xiang Shu;Lee, Young Hee;Snyder, G. Jeffrey;Kim, Sung Wng.Dense dislocation arrays embedded in grain boundaries for high-performance bulk thermoelectrics[J].Science,2015Apr.3 TN.6230(Apr.3 TN.6230):109-114. |
| [29] | Maria Ibanez;Reza Zamani;Wenhua Li.Crystallographic Control at the Nanoscale To Enhance Functionality: Polytypic Cu2GeSe3 Nanoparticles as Thermoelectric Materials[J].Chemistry of Materials: A Publication of the American Chemistry Society,201223(23):4615-4622. |
| [30] | Cui, Jingying;Li, Shanming;Hao, Qing;Zhao, Huaizhou;Zhao, Hongbo;Li, Weiqian;Wang, Yinzhen;Li, Wei;He, Qinyu.New method for preparing graphene by peeling graphite and facile fabrication of bulk Bi0.45Sb1.55Te3.02/graphene composites with dense texture and high ZT[J].RSC Advances,201553(53):42492-42499. |
| [31] | Li-Dong Zhao;Shih-Han Lo;Yongsheng Zhang;Hui Sun;Gangjian Tan;Ctirad Uher;C. Wolverton;Vinayak P. Dravid;Mercouri G. Kanatzidis.Ultralow thermal conductivity and high thermoelectric figure of merit in SnSe crystals[J].Nature,2014Apr.17 TN.7496(Apr.17 TN.7496):373-B1. |
| [32] | Chiritescu, C;Cahill, DG;Nguyen, N;Johnson, D;Bodapati, A;Keblinski, P;Zschack, P.Ultralow thermal conductivity in disordered, layered WSe2 crystals[J].Science,200726(26):351-353. |
| [33] | Jong-Soo Rhyee;Kyu Hyoung Lee;Sang Mock Lee;Eunseog Cho;Sang II Kim;Eunsung Lee;Yong Seung Kwon;Ji Hoon Shim;Gabriel Kotliar.Peierls distortion as a route to high thermoelectric performance in ln_4Se_(3-δ) crystals[J].Nature,2009Jun.18 TN.7249(Jun.18 TN.7249):965-968. |
| [34] | Chunlei Wan;Yifeng Wang;Wataru Norimatsu;Michiko Kusunoki;Kunihito Koumoto.Nanoscale stacking faults induced low thermal conductivity in thermoelectric layered metal sulfides[J].Applied physics letters,201210(10):101913-1-101913-4. |
| [35] | Funahashi R.;Shikano M..Bi2Sr2Co2Oy whiskers with high thermoelectric figure of merit[J].Applied physics letters,20028(8):1459-1461. |
| [36] | Isao Ohkubo;Takao Mori.Two-Dimensional Layered Complex Nitrides as a New Class of Thermoelectric Materials[J].Chemistry of Materials: A Publication of the American Chemistry Society,20148(8):2532-2536. |
| [37] | Funahashi R.;Ikuta H.;Takeuchi T.;Mizutani U.;Sodeoka S.;Matsubara I..An oxide single crystal with high thermoelectric performance in air[J].Japanese journal of applied physics,200011B(11B):L1127-L1129. |
| [38] | Jonathan N. Coleman;Mustafa Lotya;Arlene O'Neill;Shane D. Bergin;Paul ]. King;Utnar Khan;Karen Young;Alexandre Gaucher;Sukanta De;Ronan J. Smith;Igor V. Shvets;Sunil K. Arora;George Stanton;Hye-Young Kim;Kangho Lee;Gyu Tae Kim;Georg S. Duesberg;Toby Hallam;John J. Boland;Jing ]ing Wang;John F. Donegan;Jaime C. Grunlan;Gregory Moriarty;Aleksey Shmeliov;Rebecca J. Nicholls;James M. Perkins;Eleanor M. Grieveson;Koenraad Theuwissen;David W. McComb;Peter D. Nellist;Valeria Nicolosi.Two-Dimensional Nanosheets Produced by Liquid Exfoliation of Layered Materials[J].Science,2011Feb.4 TN.6017(Feb.4 TN.6017):568-571. |
| [39] | Rong Shan;Siham Ouardi;Gerhard H. Fecher;Li Gao;Andrew Kellock;Andrei Gloskovskii;Carlos E. ViolBarbosa;Eiji Ikenaga;Claudia Felser;Stuart S. P. Parkin.A p-type Heusler compound: Growth, structure, and properties of epitaxial thin NiYBi films on MgO(100)[J].Applied physics letters,201221(21):212102-1-212102-4. |
| [40] | Xiancong He;Honglie Shen;Wei Wang.The mechanical and thermo-physical properties and electronic structures of SnS and SnSe in orthorhombic structure[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2013:86-93. |
| [41] | S. Sassi;C. Candolfi;J.-B. Vaney;V. Ohorodniichuk;P. Masschelein;A. Dauscher;B. Lenoir.Assessment of the thermoelectric performance of polycrystalline p-type SnSe[J].Applied physics letters,201421(21):212105-1-212105-4. |
| [42] | Zhang, Qian;Chere, Eyob Kebede;Sun, Jingying;Cao, Feng;Dahal, Keshab;Chen, Shuo;Chen, Gang;Ren, Zhifeng.Studies on Thermoelectric Properties of n-type Polycrystalline SnSe1-xSx by Iodine Doping[J].Advanced energy materials,201512(12):1. |
| [43] | Serrano-Sanchez, F.;Gharsallah, M.;Nemes, N. M.;Mompean, F. J.;Martinez, J. L.;Alonso, J. A..Record Seebeck coefficient and extremely low thermal conductivity in nanostructured SnSe[J].Applied physics letters,20158(8):083902-1-083902-4. |
| [44] | Shi, Guangsha;Kioupakis, Emmanouil.Quasiparticle band structures and thermoelectric transport properties of p-type SnSe[J].Journal of Applied Physics,20156(6):065103-1-065103-10. |
| [45] | Yang, Jueming;Zhang, Guangbiao;Yang, Gui;Wang, Chao;Wang, Yuan Xu.Outstanding thermoelectric performances for both p- and n-type SnSe from first-principles study[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2015:615-620. |
| [46] | Zide JMO;Vashaee D;Bian ZX;Zeng G;Bowers JE;Shakouri A;Gossard AC.Demonstration of electron filtering to increase the Seebeck coefficient in In0.53Ga0.47As/In0.53Ga0.28Al0.19As superlattices[J].Physical review, B. Condensed matter and materials physics,200620(20):5335-1-5335-5-0. |
| [47] | Caylor JC;Coonley K;Stuart J;Colpitts T;Venkatasubramanian R.Enhanced thermoelectric performance in PbTe-based superlattice structures from reduction of lattice thermal conductivity[J].Applied physics letters,20052(2):3105-1-3105-3-0. |
| [48] | Mingo N;Broido DA.Carbon nanotube ballistic thermal conductance and its limits[J].Physical review letters,20059(9):6105-1-6105-4-0. |
| [49] | Impact of Phonon-Surface Roughness Scattering on Thermal Conductivity of Thin Si Nanowires[J].Physical review letters,200912(12):161-164. |
| [50] | Joseph R.Sootsman;Robert J.Pcionek;Huijun Kong.Strong Reduction of Thermal Conductivity in Nanostructured PbTe Prepared by Matrix Encapsulation[J].Chemistry of Materials: A Publication of the American Chemistry Society,200621(21):4993-4995. |
| [51] | Pierre F.P.Poudeu;Mercouri G.Kanatzidis;Jonathan D'Angela;Adam D.Downey;Jarrod L.Short.High Thermoelectric Figure of Merit and Nanostructuring in Bulk p-type Na_(1-x)Pb_mSb_yTe_(m+2)[J].Angewandte Chemie,200623(23):3835-3839. |
| [52] | Han, Ye-Mao;Zhao, Jie;Zhou, Min;Jiang, Xing-Xing;Leng, Hua-Qian;Li, Lai-Feng.Thermoelectric performance of SnS and SnS-SnSe solid solution[J].Journal of Materials Chemistry, A. Materials for energy and sustainability,20158(8):4555-4559. |
| [53] | Shen J.;Blachnik R..Mechanochemical syntheses of antimony selenide, tin selenides and two tin antimony selenides[J].Thermochimica Acta: An International Journal Concerned with the Broader Aspects of Thermochemistry and Its Applications to Chemical Problems,20031/2(1/2):245-246. |
| [54] | C. Suryanarayana.Mechanical alloying and milling[J].Progress in materials science,20011/2(1/2):1-184. |
| [55] | Fu Li;Jing-Feng Li;Li-Dong Zhao;Kai Xiang;Yong Liu;Bo-Ping Zhang;Yuan-Hua Lin;Ce-Wen Nan;Hong-Min Zhu.Polycrystalline BiCuSeO oxide as a potential thermoelectric material[J].Energy & environmental science: EES,20125(5):7188-7195. |
| [56] | Hu, L. P.;Zhu, T. J.;Yue, X. Q.;Liu, X. H.;Wang, Y. G.;Xu, Z. J.;Zhao, X. B..Enhanced figure of merit in antimony telluride thermoelectric materials by In-Ag co-alloying for mid-temperature power generation[J].Acta materialia,2015:270-278. |
| [57] | L.P. Hu;X.H. Liu;H.H. Xie.Improving thermoelectric properties of n-type bismuth-telluride-based alloys by deformation-induced lattice defects and texture enhancement[J].Acta materialia,201211(11):4431-4437. |
| [58] | Loa, I.;Husband, R. J.;Downie, R. A.;Popuri, S. R.;Bos, J-W G..Structural changes in thermoelectric SnSe at high pressures[J].Journal of Physics. Condensed Matter,20157(7) |
| [59] | He, Ying;Lu, Ping;Shi, Xun;Xu, Fangfang;Zhang, Tiansong;Snyder, Gerald Jeffrey;Uher, Ctirad;Chen, Lidong.Ultrahigh Thermoelectric Performance in Mosaic Crystals[J].Advanced Materials,201524(24):3639-3644. |
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%