ANOCOMPOSITE THERMOELECTRIC MATERIALS PRODUC- TION, PROPERTIES, USING (REVIEW)
Keywords:
thermoelectricity, nanostructure, nanocomposites.Abstract
Detailed analysis of the technological methods used to obtain nanocomposite structures of semiconductor thermoelectric materials and methods of compaction in solid samples. Particular attention is paid to the characteristics of different classes of compounds for nanocomposites: structure, thermal and electrical properties, compaction methods and ways of use. Highlighted new strategies in obtaining nanocomposites.
References
1. Шевельков А.В. Химические аспекты создания термоэлектрических материалов / А.В.Шевельков // Успехи химии. – 2008. – Т.77 – No1 – C. 3-21.
2. Cao G. Annual review of nano research Vol.3 / G.Cao, Q.Zhang, C.J.Brinker – Singapore, World scientific, 2010. – Р. 550.
3. Ni H. Physica B. / H.Ni, T.Zhu, X.Zhao. – 2005. – V.50. – Р. 364.
4. Zhu T.J. Mater. Res. Bull. / T.J.Zhu, Y.Q.Liu, X.B.Zhao. – 2008. – V.43. – P. 2850.
5. Am. Chem. Soc. / W.Z.Wang, B.Poudel, J.Yang, D.Z.Wang, Z.F.Ren. – 2005. – V.127 – P. 13792.
6. Mater. Lett. / J.L.Mi, X.B.Zhao, T.J.Zhu, J.P.Tu. – 2008. – V.62. – P. 2363.
7. Cao Y.Q. Alloys. Compd. / Y.Q.Cao, T.J.Zhu, X.B.Zhao. – 2008. – V.449. – P. 109.
8. Adv. Mater. / W.Z.Wang, B.Poudel, D.Z.Wang, Z.F.Ren. – 2005. – V.17. – Р. 2110.
9. Nanosci. Nanotechnol. / B.Poudel, W.Z.Wang, D.Z.Wang, J.Y.Huang, Z.F.Ren – 2006. – V.6 – P. 1050.
10. Nanosci. Nanotechnol. / W.Z.Wang, X.Yan, P.B.oudel, Y.Ma, Q.Hao, J.Yang, G.Chen, Z.F.Ren. – 2008. – V.8. – P. 452.
11. Cao Y.Q., Zhao X.B., Zhu T.J., Zhang X.B., Tu J.P. // Appl. Phys. Lett. – 2008. – V.92. – P.143106.
12. Bertini L., Stiewe C., Toprak M., Williams S., Platzek D., Mrotzek A., Zhang Y., Gatti C., Muller E., Muhammed M., Rowe M. // Appl. Phys. – 2003. – V.93. – P.438.
13. Sun T., Zhao X. B., Zhu T. J., Tu J. P. // Mater. Lett. – 2006. – V.60. – P.2534.
14. Martin J., Nolas G. S., Zhang W., Chen L.// Appl. Phys. Lett. – 2007. – V.90. – P.222112.
15. Zheng Y. Y., Zhu T. J., Zhao X. B., Tu J. P., Cao G. S. // Mater. Lett. – 2005. – V.59. – P.2886.
16. Poudel B., Hao Q., Ma Y., Lan Y. C., Minnich A., Yu B., Yan X., Wang D. Z., Muto A., Vashaee D., Chen X. Y., Liu J. M., Dresselhaus M. S., Chen G., Ren Z. F. // Science – 2008. – V.320 – P.634.
17. Joshi G., Lee H., Lan Y. C., Wang X. W., Zhu G. H., Wang D. Z., Gould R. W., Cuff D. C., Tang M. Y., Dresselhaus M. S, Chen G., Ren Z. F. // Nano Lett. – 2008. – V.8 – P.4670.
18. Ma Y., Hao Q., Poudel B., Lan Y. C., Yu B., Wang D. Z., Chen G., Ren Z. F. // Nano Lett. – 2008. – V.8 – P.2580.
19. Wang X. W., Lee H., Lan Y. C., Zhu G. H., Joshi G., Wang D. Z., Yang J., Muto A. J., Tang M. Y., Klatsky J., Song S., Dresselhaus M. S., Chen G.,. Ren Z. F // Appl. Phys. Lett. – 2008. – V.93 – P.193121.
20. Zhu G. H., Lee H., Lan Y. C., Wang X. W., Joshi G., Wang D. Z., Yang J., Vashaee D., Guilbert H., Pillitteri A., Dresselhaus M. S., Chen G., Ren Z. F., // Phys. Rev. Lett. – 2009. – V.102 – P.196803.
21. Ren Z. F., Poudel B., Ma Y., Hao Q., Lan Y. C., Minnich A., Muto A., Yang J., Yu B., Yan X., Wang D. Z., Liu J. M., Dresselhaus M. S., Chen G., // Mater. Res. Soc. Symp. Proc. – 2009. – P.1166.
22. Suryanarayana C.// Prog. Mater. Sci. – 2001. – V.46 – No.1.
23. Lan Y., Minnich A. J., Chen G., Ren Z. Enhancement of thermoelectric figure-of-merit by a bulk nanostructuring approach // Adv. Funct. Mater. – 2010. – V.20 – P.357.
24. http://en.wikipedia.org/wiki/Ball_mill
25. Gusev A.I. Nanocrystalline Materials / A.I.Gusev, A.A.Rempel – Cambridge Int, Science Publishing, 2004.
26. Rowe D.M. // Thermoelectrics handbook: macro to nano / D.M.Rowe – CRC/Taylor & Francis, Boca Raton, 2006.
27. Umemoto M. // Materials Transactions JIM. – 1995. – V.36 – P.373.
28. Davis R.M., Koch C.C. // Scripta Metallurgica. – 1987. – V.21 – P.305.
29. Bouad N., Marin-Ayral R.M., Tedenac J.C. // Journal of Alloys and Compounds. – 2000. – V.297 – P.312.
30. Kishimoto K., Koyanagi T. // Journal of Applied Physics. – 2002. – V.92 – P.2544.
31. Bouad N., Record M.C., Tedenac J.C., Marin-Ayral R.M. // Journal of Solid State Chemistry. – 2004. – V.177 – P.221.
32. Kim H.C., Oh T.S., Hyun D.B. // Phys Chem Solids. – 2000. – V.61 – P.743.
33. Schilz J., Riffel M., Pixius K., Meyer H.J. // Powder Technol. – 1999. – V.105 – P.149.
34. Yang J.Y., Chen Y.H., Peng J.Y., Song X.L., Zhu W., Su J.F., Chen R.G. // Journal of Alloys and Compounds. – 2004. – V.375 – P.229.
35. May A.F., Fleurial J.P., Snyder G.J. // Physical Review B. – 2008. – V.78 – P.125205.
36. Zhang B. Lead chalcogenide nano-composites: synthesis, thermal and electrical transport properties / B.Zhang // Dissertation – 2008.
37. Zhao X.B., Ji X.H., Zhang Y.H., Zhu T.J., Tu J.P., Zhang X.B. // Applied Physics Letters. – 2005. – V.86 – P.062111.
38. Gothard N., Ji X., He J., Tritta T.M. // Journal of Applied Physics. – 2008. – V.103 – P.054314.
39. Ni H.L., Zhao X.B., Zhu T.J., Ji X.H., Tu J.P. // Journal of Alloys and Compounds. – 2005. – V.397 – P.317
40. Wang W., Poudel B., Yang J., Wang D.Z., Ren Z.F. // Am Chem Soc - 2005. – V.127 – P.13792.
41. Yu S.H., Yang J., Wu Y.S., Han Z.H., Lu J., Xie Y., Qian Y.T. // Mater Chem. – 1998. – V.8 – P.1949
42. Mi J.L., Zhao X.B., Zhu T.J., Tu J.P., Cao G.S. // Journal of Alloys and Compounds. – 2006. – V.417 – P.269.
43. Mi J.-L., Zhao X.-B., Zhu T.-J., Tu J.-P. // Journal of Inorganic Materials. – 2008. – V.23 – P.715.
44. Purkayastha F.L.A., Kim S., Borca-Tasciuc T., Ramanath G. // Advanced Materials. – 2006. – V.18 – P.496
45. Lu W., Ding Y., Chen Y., Wang Z. L., Fang J., // Am Chem Soc. – 2005. – V.127. – P.10112.
46. Xiao F., Hangarter C., Yoo B.Y., Rheem Y.W., Lee K.H., Myung N.V. // Electrochimica Acta. – 2008. – V.53. – P.8103.
47. Snyder G.J., Lim J.R., Huang C.K., Fleurial J.P. // Nature Materials. – 2003. – V.2. – P.528.
48. Chen L.J., Hu H.N., Li Y.X., Chen G.F., Yu S.Y., Wu G.H. // Chemistry Letters. – 2006. – V.35. – P.170.
49. Martin-Gonzalez M., Prieto A.L., Gronsky R., Sands T., Stacy A.M. // Advanced Materials. – 2003. – V.15. – P.1003.
50. Jin C.G., Xiang X. Q., Jia C., Liu W.F., Cai W.L., Yao L.Z., Li X.G. // Phys Chem B 108 p. – 2004. – V.108. – P.1844.
51. Jin C.G., Zhang G.Q., Qian T., Li X.G., Yao Z. // Phys Chem B. – 2005. – V.109. – P.1430.
52. Martin-Gonzalez M., Snyder G.J., Prieto A.L., Gronsky R., Sands T.,. Stacy A.M // Nano Letters. – 2005. – V.3. – P.973.
53. Liu W.F., Cai W.L., Yao L.Z. // Chemistry Letters. – 2007. – V.36. – P.1362.
54. Gurrappa I. Electrodeposition of nanostructured coatings and their characterization - a review / I.Gurrappa, L.Binder // Sci. Technol. Adv. Mater. – 2008. – V.9.
55. Wang W., Qu J.F., Lu X.L., Zhang G.Q., Li G., Li X.G. // Materials Science Forum. – 2007. – V.546-549. – P.2171.
56. Li L., Yang Y.W., Huang X.H., Li G.H., Zhang L.D. // Nanotechnology. – 2006. – V.17. – P.1706.
57. Trahey L., Becker C.R., Stacy A.M. // Nano Letters. – 2007. – V.7. – P.2535.
58. Xue F.H., Fei G.T., Wu B., Cui P., Zhang L.D. // Am Chem Soc. – 2005. – V.127. – P.15348.
59. Yoo B., Xiao F., Bozhilov K.N., Herman J., Ryan M.A., Myung N.V. // Advanced Materials. – 2007. – V.19. – P.296.
60. Wang W., Zhang G.Q., Li X.G. // Journal of Physical Chemistry C. – 2008. – V.112. – P.15190.
61. Wang W., Lu X.L., Zhang T., Zhang G.Q., Jiang W.J., Li X.G., // Am Chem Soc. – 2007. – V.129. – P.6702.
62. Dresselhaus M. Materials and Technologies for direct thermal-to-electric energy conversion / M.S.Dresselhaus, G.Chen, M.Y.Tang, R.G.Yang, H.Lee, D.Z.Wang, Z.F.Ren, J.P.Fleurial, P.Gogna, MRS // Symposium Proceedings. – 2005. – V.886. – P.3.
63. Kathy Lu Nanoparticulate materials synthesis, characterization, and processing, / Lu Kathy – Hoboken, New Jersey, John Wiley&Sons, Inc.,– (2012). – p.430.
64. Bang J.H., Suslick K.S. Applications of Ultrasound to the Synthesis of Nanostructured Materials/ Jin Ho Bang, Kenneth S. Suslick // Adv. Mater. – 2010. – V.22. – PP.1039-1059.
65. Suslick K.S. // Science. – 1990. – V.247. – P.1439.
66. Qiu X.F., Zhu J.J., Pu L., Shi Y., Zheng Y.D., Chen H.Y. // Inorganic Chemistry Communications. – 2004. – V.7. – P.319.
67. Zheng Y.Y., Zhu T.J., Zhao X.B., Tu J.P., Cao G.S. // Materials Letters. – 2005. – V.59. – P.2886.
68. Ge J.P., Li Y.D. // Mater Chem. – 2003. – V.13. – P.911.
69. Kodas T., Hampden-Smith M.The chemistry of metal CVD / T. Kodas, M. Hampden-Smith – Weinheim; New York ;Base ; Cambridge ; Tokyo : VCH. – 1994.
70. Boreddy S. R. Reddy Advances in Nanocomposites - Synthesis, Characterization and Industrial Applications // InTech, Croatia, (2011). – p.980.
71. Filipponi L. Fundamental concepts in nanoscience and nanotechnologies / L. Filipponi, D. Sutherl – Denmark. Interdisciplinary Nanoscience Centre (iNANO) Aarhus University, 2010.
72. Wang H., Li J.F., Nan C.W., Zhou M., Liu W., Zhang B.P., Kita T. // Appl. Phys. Lett. – 2006. – V.88. – P.092104.
73. Liu W.S., Zhang B.P., Li J.F., Zhao L.D. //. Phys. D: Appl. Phys. – 2007. – V.40. – P.566.
74. Martin-Lopez R., Dauscher A., Scherrer H., Hejtmanek J., Kenzari H., Lenoir B. // Appl. Phys. A: Mater. Sci. Process. – 1999. – V.68. – P.597.
75. Kim S.S., Yamamoto S., Aizawa T. // Alloy. Compd. – 2004. – V.375. – P.107.
76. Ur S.C., Kim I.H., Nash P., // Mater. Sci. – 2007. – V.42. – P.2143.
77. He Z., Stiewe C., Platzek D., Karpinski G., Muller E., Li S., Toprak M., Muhammed M.// J. Appl. Phys. – 2007. – V.101. – P.053713.
78. Schultz J.M., McHugh J.P., Tiller W.A. // J. Appl. Phys. – 1962. – V.33. – P.2443.
79. Henriques B. Optimization of bond strength between gold alloy and porcelain through a composite interlayer obtained by powder metallurgy / B.Henriques, D.Soares, F.S.Silva. – Materials Science and Engineering A.– 2011. – V.528. – P.1415.
80. Rowe D.M., Shukla V.S., Savvides N. // Nature. – 1981. – V.290. – P.465.
81. Yang J., Hao Q., Wang H., Lan Y. C., He Q.Y., Wang D.Z., Harriman J.A., Varki V.M., Dresselhaus M.S., Chen G., Ren Z.F. // Phys. Rev. B. – 2009. – V.80. – P.115329.
82. Miller J.F., Himes R.C. // Electrochem. Soc. – 1960. – V.107. – P.915.
83. Dresselhaus M.S., Chen G., Tang M.Y., Yang R.G., Lee H., Wang D.Z., Ren Z.F., Fleurial J.P., Gogna P. // Adv. Mater. – 2007. – V.19. – P.2107.
84. Munir Z.A., Anselmi-Tamburini U., Ohyanagi M. // Journal of Materials Science. – 2006. – V.41. – P.763.
85. Kessel H.U. Технология спекания в электрическом поле / H.U.Kessel, J.Hennicke, J.Schmidt / Germany, System gmbh, 2011. – p.33,
86. Goldsmid H.J., Douglas R.W. // Brit. J. Appl. Phys. – 1954. – V.5. – P.386.
87. Zhao L.-D., Zhang B.-P., Liu W.-S., Li J.-F. // Appl. Phys. – 2009. – V.105. – P.023704.
88. Ji X.H., He J., Su Z., Gothard N., Tritt T.M. // Journal of Applied Physics. – 2008. – V.104. – P.034907.
89. Zhang Q., Zhang Q.Y., Chen S., Liu W.S., Lukas K., Yan X., Wang H.Z., Wang D.Z., Opeil C., Chen G., Ren Z.F. // Nano Letters. – 2010.
90. Yu B. Thermoelectric Figure-of-Merit in Bulk p-type PbTe / B.Yu, H.Wang, B.Poudel, K.McEnaney, G.Chen, Z.Ren – APS March Meeting, Pittsburgh, PA, March, 2009.
91. Peranio N., Eibl O., Nurnus J. // Journal of Applied Physics. – 2006. – V.100. – P.114306.
92. Heremans J.P., Thrush C.M., Morelli D.T. // Journal of Applied Physics. – 2005. – V.98. – P.063703.
93. Sootsman J.R., Kong H., Uher C., D'Angelo J.J., Wu C.I., Hogan T.P., Caillat T., Kanatzidis M.G. // Angewandte Chemie-International Edition 47, 8618 (2008). – 2008. – V.47. – P.8618.
94. Hsu K.F., Loo S., Guo F., Chen W., Dyck J.S., Uher C., Hogan T.,. Polychroniadis E.K, Kanatzidis M.G. // Science. – 2004. – V.303. – P.848.
95. Poudeu P.F.R., D'Angelo J., Downey A.D., Short J.L., Hogan T.P.,. Kanatzidis M.G, // Angewandte Chemie-International Edition. – 2006. – V.45. – P.3835.
96. Androulakis J., Hsu K.F., Pcionek R., Kong H., Uher C., DAngelo J.J., Downey A., Hogan T., Kanatzidis M.G. // Advanced Materials. – 2006. – V.18. – P.1170.
97. Kosuga A., Kurosaki K., Muta H., Yamanaka S. // Journal of Alloys and Compounds. – 2006. – V.416. – P.218.
98. Bilc D., Mahanti S.D., Quarez E., Hsu K.F., Pcionek R., Kanatzidis M.G. // Physical Review Letters. – 2004. – V.93. – P.146403.
99. D.I. Bilc, S.D. Mahanti, and M.G. Kanatzidis, Physical Review B 74, 125202 (2006).
100. Zhou M., Li J. F., Kita T. // Journal of the American Chemical Society. – 2008. – V.130. – P.4527.
101. Ikeda T., Haile S.M., Ravi V.A., Azizgolshani H., Gascoin F., J.Snyder G. // Acta Materialia. – 2007. – V.55. – P.1227.
102. Ikeda T., Collins L.A., Ravi V.A., Gascoin F.S., Haile S.M., Snyder G.J. // Chemistry of Materials. – 2007. – V.19. – P.763.
103. Ikeda T., Ravi V.A., Collins L.A., Haile S.M., Snyder G.J. // Journal of Electronic Materials. – 2007. – V.36. – P.716.
104. Androulakis J., Lin C.H., Kong H.J., Uher C., Wu C.I., Hogan T., Cook B.A., Caillat T., Paraskevopoulos K.M., Kanatzidis M.G. // Journal of the American Chemical Society. – 2007. – V.129. – P.9780.
105. Nolas G.S., Wang D., Beekman M. // Physical Review B. – 2007. – V.76. – P.235204.
106. Zaitsev V.K., Fedorov M.I., Gurieva E.A., Eremin I.S., Konstantinov P.P., Samunin A.Y., Vedernikov M.V. // Physical Review B. – 2006. – V.74. – P.045207.
107. Zhang Q., He J., Zhu T.J., Zhang S.N., Zhao X.B., Tritt T.M. // Applied Physics Letters. – 2008. – V.93. – P.102109.
108. Uher C. Recent Trends in Thermoelectric Material Search in Semiconduct. Semimet Vol. 69 / C. Uher. – USA, Academic, 2001.
109. Berardan D. // Appl. Phys. – 2005. – V.98. – P.033710.
110. Slack G.A. CRC Handbook of Thermoelectrics / G.A.Slack. – USA, CRC Press, 1995.
111. Sales B.C., Mandrus D., Williams R.K. // Science. – 1996. – V.272. – P.1325.
112. Chen L.D // Appl. Phys. – 2001. – V.90. – P.1864.
113. Tang X., Zhang Q., Chen L., Goto T., Hirai T. //. Appl. Phys. – 2005. – V.97. – P.093712.
114. Li J.-F. High-performance nanostructured thermoelectric materials / J.- F.Li, W.-S.Liu, L.-D.Zhao, M.Zhou // NPG Asia Mater. – 2010. – V.2. – No4. – P.152.
115. Shi X., Zhang W., Chen L.D., Yang J. // Phys. Rev. Lett. – 2005. – V.95. – P.185503.
116. Pei Y.Z. // Appl. Phys. Lett. – 2006. – V.89. – P.221107.
117. Li H., Tang X., Zhang Q., Uher C. // Appl. Phys. Lett. – 2009. – V.94. – P.102114.
118. Long G.J., Hermann R.P., Grandjean F., Alp E.E., Sturhahn W., Johnson C.E., Brown D.E., Leupold O., Ruffer R. // Physical Review B. – 2005. – V.71. – P.140320.
119. Grannan E.R., Randeria M., Sethna J.P. // Physical Review B. – 1990. – V.41. – P.7799.
120. Yang J., Zhang W., Bai S.Q., Mei Z., Chen L.D. // Applied Physics Letters. – 2007. – V.90. – P.192111.
121. Shi X., Yang J., Salvador J.R., Chi M.F., Cho J.Y., Wang H., Bai S.Q., Yang J.H., Zhang W.Q., Chen L.D. // Journal of the American Chemical Society. – 2011. – V.133. – P.7837.
122. Wood C. // Rep Prog Phys. – 1988. – V.51. – P.459.
123. Vining C.B. // Appl. Phys. – 1991. – V.69. – P.331.
124. Vining C.B., Laskow W., Hanson J.O., der Beck R.R.V., Gorsuch P.D., // Appl. Phys. – 1991. – V.69. – P.4333.
125. Rowe D.M., Fu L.W., Williams S.G.K. // Appl. Phys. – 1993. – V.73. – P.4683.
126. Abdellaoui M., Gaffet E. // Phys. IV France. – 1994. – V.4. – P.3.
127. Gaffet E., Yousfi L. // Mater. Sci. Forum. – 1992. – V.51. – P.88.
128. Uher C., Yang J., Hu S., Morelli D.T., Meisner G.P. // Phys. Rev. B. – 1999. – V.59. – P.8615.
129. Shen Q // Appl. Phys. Lett. – 2001. – V.79. – P.4165.
130. Culp S.R., Poon S.J., Hickman N., Tritt T.M., Blumm J. // Appl. Phys. Lett. – 2006. – V.88. – P.042106.
131. Zou M., Li J.-F., Du B., Liu D., Kita T. // Solid State Chem. – 2009. – V.182. – P.3138.
132. Zhou M., Chen L., Feng C., Wang D., Li J.-F. // Appl. Phys. – 2007. – V.101. – P.113714.
133. Yang J. // Adv. Funct. Mater. – 2008. – V.18. – P.2880.
134. Wang H., Li J.F., Zou M.M., Sui T. // Applied Physics Letters. – 2008. – V.93. – P.202106.
135. Yan X., Poudel B., Ma Y., Liu W.S., Joshi G., Wang H., Lan Y.C., Wang D.Z., Chen G., Ren Z.F. // Nano Letters. – 2010. – V.10. – P.3373.
136. Pichanusakorn P., Bandaru P. // Materials Science and Engineering. – 2010. – V.67. – P.19.
137. Zebarjadi M., Joshi G., Zhu G.H., Yu B., Minnich A., Lan Y.C., Wang X.W., Dresselhaus M., Ren Z.F., Chen G. // Nano Letters. – 2011. – V.11. – P.2225.
138. Venkatasubramanian R., Siivola E., Colpitts T., O’Quinn B. // Nature. – 2001. – V.413. – P.597.
139. Liu W., Yan X., Gang Chen, Ren Z. Recent advances in thermoelectric nanocomposites // Nano Energy. – 2012. – V.1. – P.42.
140. Popescu A., Woods L.M. // Applied Physics Letters. – 2010. – V.97. – P.052102.
141. Zhang Y., Ke X.Z., Chen C.F., Yang J.H., Kent P.R.C. // Physical Review Letters. – 2011. – V.106. – P.206601.
142. Zhao L.D., Zhang B.P., Li J.F., Liu W.S. // Solid State Science. – 2008. – V.10. – P.651.
143. Tang J.Y., Wang H.T., Lee D.H., Fardy M., Huo Z.Y., Russell T.P., Yang P.D. // Nano Letters 10 p.4279 (2010). . – 2010. – V.10. – P.4279.
144. He Y.P., Donadio D., Lee J.H., Grossman J.C., Galli G. // ACS Nano. – 2011. – V.3. – P.1839.
145. Yi T., Chen S., Yang S. Li, H., Bux S., Bian Z., Katcho N.A., Shakouri A.,. Mingo N, Fleurial J.-P., Browning N.D., Kauzlarich S.M. // Mater. Chem. – 2012. – V.22. – P.24805.
2. Cao G. Annual review of nano research Vol.3 / G.Cao, Q.Zhang, C.J.Brinker – Singapore, World scientific, 2010. – Р. 550.
3. Ni H. Physica B. / H.Ni, T.Zhu, X.Zhao. – 2005. – V.50. – Р. 364.
4. Zhu T.J. Mater. Res. Bull. / T.J.Zhu, Y.Q.Liu, X.B.Zhao. – 2008. – V.43. – P. 2850.
5. Am. Chem. Soc. / W.Z.Wang, B.Poudel, J.Yang, D.Z.Wang, Z.F.Ren. – 2005. – V.127 – P. 13792.
6. Mater. Lett. / J.L.Mi, X.B.Zhao, T.J.Zhu, J.P.Tu. – 2008. – V.62. – P. 2363.
7. Cao Y.Q. Alloys. Compd. / Y.Q.Cao, T.J.Zhu, X.B.Zhao. – 2008. – V.449. – P. 109.
8. Adv. Mater. / W.Z.Wang, B.Poudel, D.Z.Wang, Z.F.Ren. – 2005. – V.17. – Р. 2110.
9. Nanosci. Nanotechnol. / B.Poudel, W.Z.Wang, D.Z.Wang, J.Y.Huang, Z.F.Ren – 2006. – V.6 – P. 1050.
10. Nanosci. Nanotechnol. / W.Z.Wang, X.Yan, P.B.oudel, Y.Ma, Q.Hao, J.Yang, G.Chen, Z.F.Ren. – 2008. – V.8. – P. 452.
11. Cao Y.Q., Zhao X.B., Zhu T.J., Zhang X.B., Tu J.P. // Appl. Phys. Lett. – 2008. – V.92. – P.143106.
12. Bertini L., Stiewe C., Toprak M., Williams S., Platzek D., Mrotzek A., Zhang Y., Gatti C., Muller E., Muhammed M., Rowe M. // Appl. Phys. – 2003. – V.93. – P.438.
13. Sun T., Zhao X. B., Zhu T. J., Tu J. P. // Mater. Lett. – 2006. – V.60. – P.2534.
14. Martin J., Nolas G. S., Zhang W., Chen L.// Appl. Phys. Lett. – 2007. – V.90. – P.222112.
15. Zheng Y. Y., Zhu T. J., Zhao X. B., Tu J. P., Cao G. S. // Mater. Lett. – 2005. – V.59. – P.2886.
16. Poudel B., Hao Q., Ma Y., Lan Y. C., Minnich A., Yu B., Yan X., Wang D. Z., Muto A., Vashaee D., Chen X. Y., Liu J. M., Dresselhaus M. S., Chen G., Ren Z. F. // Science – 2008. – V.320 – P.634.
17. Joshi G., Lee H., Lan Y. C., Wang X. W., Zhu G. H., Wang D. Z., Gould R. W., Cuff D. C., Tang M. Y., Dresselhaus M. S, Chen G., Ren Z. F. // Nano Lett. – 2008. – V.8 – P.4670.
18. Ma Y., Hao Q., Poudel B., Lan Y. C., Yu B., Wang D. Z., Chen G., Ren Z. F. // Nano Lett. – 2008. – V.8 – P.2580.
19. Wang X. W., Lee H., Lan Y. C., Zhu G. H., Joshi G., Wang D. Z., Yang J., Muto A. J., Tang M. Y., Klatsky J., Song S., Dresselhaus M. S., Chen G.,. Ren Z. F // Appl. Phys. Lett. – 2008. – V.93 – P.193121.
20. Zhu G. H., Lee H., Lan Y. C., Wang X. W., Joshi G., Wang D. Z., Yang J., Vashaee D., Guilbert H., Pillitteri A., Dresselhaus M. S., Chen G., Ren Z. F., // Phys. Rev. Lett. – 2009. – V.102 – P.196803.
21. Ren Z. F., Poudel B., Ma Y., Hao Q., Lan Y. C., Minnich A., Muto A., Yang J., Yu B., Yan X., Wang D. Z., Liu J. M., Dresselhaus M. S., Chen G., // Mater. Res. Soc. Symp. Proc. – 2009. – P.1166.
22. Suryanarayana C.// Prog. Mater. Sci. – 2001. – V.46 – No.1.
23. Lan Y., Minnich A. J., Chen G., Ren Z. Enhancement of thermoelectric figure-of-merit by a bulk nanostructuring approach // Adv. Funct. Mater. – 2010. – V.20 – P.357.
24. http://en.wikipedia.org/wiki/Ball_mill
25. Gusev A.I. Nanocrystalline Materials / A.I.Gusev, A.A.Rempel – Cambridge Int, Science Publishing, 2004.
26. Rowe D.M. // Thermoelectrics handbook: macro to nano / D.M.Rowe – CRC/Taylor & Francis, Boca Raton, 2006.
27. Umemoto M. // Materials Transactions JIM. – 1995. – V.36 – P.373.
28. Davis R.M., Koch C.C. // Scripta Metallurgica. – 1987. – V.21 – P.305.
29. Bouad N., Marin-Ayral R.M., Tedenac J.C. // Journal of Alloys and Compounds. – 2000. – V.297 – P.312.
30. Kishimoto K., Koyanagi T. // Journal of Applied Physics. – 2002. – V.92 – P.2544.
31. Bouad N., Record M.C., Tedenac J.C., Marin-Ayral R.M. // Journal of Solid State Chemistry. – 2004. – V.177 – P.221.
32. Kim H.C., Oh T.S., Hyun D.B. // Phys Chem Solids. – 2000. – V.61 – P.743.
33. Schilz J., Riffel M., Pixius K., Meyer H.J. // Powder Technol. – 1999. – V.105 – P.149.
34. Yang J.Y., Chen Y.H., Peng J.Y., Song X.L., Zhu W., Su J.F., Chen R.G. // Journal of Alloys and Compounds. – 2004. – V.375 – P.229.
35. May A.F., Fleurial J.P., Snyder G.J. // Physical Review B. – 2008. – V.78 – P.125205.
36. Zhang B. Lead chalcogenide nano-composites: synthesis, thermal and electrical transport properties / B.Zhang // Dissertation – 2008.
37. Zhao X.B., Ji X.H., Zhang Y.H., Zhu T.J., Tu J.P., Zhang X.B. // Applied Physics Letters. – 2005. – V.86 – P.062111.
38. Gothard N., Ji X., He J., Tritta T.M. // Journal of Applied Physics. – 2008. – V.103 – P.054314.
39. Ni H.L., Zhao X.B., Zhu T.J., Ji X.H., Tu J.P. // Journal of Alloys and Compounds. – 2005. – V.397 – P.317
40. Wang W., Poudel B., Yang J., Wang D.Z., Ren Z.F. // Am Chem Soc - 2005. – V.127 – P.13792.
41. Yu S.H., Yang J., Wu Y.S., Han Z.H., Lu J., Xie Y., Qian Y.T. // Mater Chem. – 1998. – V.8 – P.1949
42. Mi J.L., Zhao X.B., Zhu T.J., Tu J.P., Cao G.S. // Journal of Alloys and Compounds. – 2006. – V.417 – P.269.
43. Mi J.-L., Zhao X.-B., Zhu T.-J., Tu J.-P. // Journal of Inorganic Materials. – 2008. – V.23 – P.715.
44. Purkayastha F.L.A., Kim S., Borca-Tasciuc T., Ramanath G. // Advanced Materials. – 2006. – V.18 – P.496
45. Lu W., Ding Y., Chen Y., Wang Z. L., Fang J., // Am Chem Soc. – 2005. – V.127. – P.10112.
46. Xiao F., Hangarter C., Yoo B.Y., Rheem Y.W., Lee K.H., Myung N.V. // Electrochimica Acta. – 2008. – V.53. – P.8103.
47. Snyder G.J., Lim J.R., Huang C.K., Fleurial J.P. // Nature Materials. – 2003. – V.2. – P.528.
48. Chen L.J., Hu H.N., Li Y.X., Chen G.F., Yu S.Y., Wu G.H. // Chemistry Letters. – 2006. – V.35. – P.170.
49. Martin-Gonzalez M., Prieto A.L., Gronsky R., Sands T., Stacy A.M. // Advanced Materials. – 2003. – V.15. – P.1003.
50. Jin C.G., Xiang X. Q., Jia C., Liu W.F., Cai W.L., Yao L.Z., Li X.G. // Phys Chem B 108 p. – 2004. – V.108. – P.1844.
51. Jin C.G., Zhang G.Q., Qian T., Li X.G., Yao Z. // Phys Chem B. – 2005. – V.109. – P.1430.
52. Martin-Gonzalez M., Snyder G.J., Prieto A.L., Gronsky R., Sands T.,. Stacy A.M // Nano Letters. – 2005. – V.3. – P.973.
53. Liu W.F., Cai W.L., Yao L.Z. // Chemistry Letters. – 2007. – V.36. – P.1362.
54. Gurrappa I. Electrodeposition of nanostructured coatings and their characterization - a review / I.Gurrappa, L.Binder // Sci. Technol. Adv. Mater. – 2008. – V.9.
55. Wang W., Qu J.F., Lu X.L., Zhang G.Q., Li G., Li X.G. // Materials Science Forum. – 2007. – V.546-549. – P.2171.
56. Li L., Yang Y.W., Huang X.H., Li G.H., Zhang L.D. // Nanotechnology. – 2006. – V.17. – P.1706.
57. Trahey L., Becker C.R., Stacy A.M. // Nano Letters. – 2007. – V.7. – P.2535.
58. Xue F.H., Fei G.T., Wu B., Cui P., Zhang L.D. // Am Chem Soc. – 2005. – V.127. – P.15348.
59. Yoo B., Xiao F., Bozhilov K.N., Herman J., Ryan M.A., Myung N.V. // Advanced Materials. – 2007. – V.19. – P.296.
60. Wang W., Zhang G.Q., Li X.G. // Journal of Physical Chemistry C. – 2008. – V.112. – P.15190.
61. Wang W., Lu X.L., Zhang T., Zhang G.Q., Jiang W.J., Li X.G., // Am Chem Soc. – 2007. – V.129. – P.6702.
62. Dresselhaus M. Materials and Technologies for direct thermal-to-electric energy conversion / M.S.Dresselhaus, G.Chen, M.Y.Tang, R.G.Yang, H.Lee, D.Z.Wang, Z.F.Ren, J.P.Fleurial, P.Gogna, MRS // Symposium Proceedings. – 2005. – V.886. – P.3.
63. Kathy Lu Nanoparticulate materials synthesis, characterization, and processing, / Lu Kathy – Hoboken, New Jersey, John Wiley&Sons, Inc.,– (2012). – p.430.
64. Bang J.H., Suslick K.S. Applications of Ultrasound to the Synthesis of Nanostructured Materials/ Jin Ho Bang, Kenneth S. Suslick // Adv. Mater. – 2010. – V.22. – PP.1039-1059.
65. Suslick K.S. // Science. – 1990. – V.247. – P.1439.
66. Qiu X.F., Zhu J.J., Pu L., Shi Y., Zheng Y.D., Chen H.Y. // Inorganic Chemistry Communications. – 2004. – V.7. – P.319.
67. Zheng Y.Y., Zhu T.J., Zhao X.B., Tu J.P., Cao G.S. // Materials Letters. – 2005. – V.59. – P.2886.
68. Ge J.P., Li Y.D. // Mater Chem. – 2003. – V.13. – P.911.
69. Kodas T., Hampden-Smith M.The chemistry of metal CVD / T. Kodas, M. Hampden-Smith – Weinheim; New York ;Base ; Cambridge ; Tokyo : VCH. – 1994.
70. Boreddy S. R. Reddy Advances in Nanocomposites - Synthesis, Characterization and Industrial Applications // InTech, Croatia, (2011). – p.980.
71. Filipponi L. Fundamental concepts in nanoscience and nanotechnologies / L. Filipponi, D. Sutherl – Denmark. Interdisciplinary Nanoscience Centre (iNANO) Aarhus University, 2010.
72. Wang H., Li J.F., Nan C.W., Zhou M., Liu W., Zhang B.P., Kita T. // Appl. Phys. Lett. – 2006. – V.88. – P.092104.
73. Liu W.S., Zhang B.P., Li J.F., Zhao L.D. //. Phys. D: Appl. Phys. – 2007. – V.40. – P.566.
74. Martin-Lopez R., Dauscher A., Scherrer H., Hejtmanek J., Kenzari H., Lenoir B. // Appl. Phys. A: Mater. Sci. Process. – 1999. – V.68. – P.597.
75. Kim S.S., Yamamoto S., Aizawa T. // Alloy. Compd. – 2004. – V.375. – P.107.
76. Ur S.C., Kim I.H., Nash P., // Mater. Sci. – 2007. – V.42. – P.2143.
77. He Z., Stiewe C., Platzek D., Karpinski G., Muller E., Li S., Toprak M., Muhammed M.// J. Appl. Phys. – 2007. – V.101. – P.053713.
78. Schultz J.M., McHugh J.P., Tiller W.A. // J. Appl. Phys. – 1962. – V.33. – P.2443.
79. Henriques B. Optimization of bond strength between gold alloy and porcelain through a composite interlayer obtained by powder metallurgy / B.Henriques, D.Soares, F.S.Silva. – Materials Science and Engineering A.– 2011. – V.528. – P.1415.
80. Rowe D.M., Shukla V.S., Savvides N. // Nature. – 1981. – V.290. – P.465.
81. Yang J., Hao Q., Wang H., Lan Y. C., He Q.Y., Wang D.Z., Harriman J.A., Varki V.M., Dresselhaus M.S., Chen G., Ren Z.F. // Phys. Rev. B. – 2009. – V.80. – P.115329.
82. Miller J.F., Himes R.C. // Electrochem. Soc. – 1960. – V.107. – P.915.
83. Dresselhaus M.S., Chen G., Tang M.Y., Yang R.G., Lee H., Wang D.Z., Ren Z.F., Fleurial J.P., Gogna P. // Adv. Mater. – 2007. – V.19. – P.2107.
84. Munir Z.A., Anselmi-Tamburini U., Ohyanagi M. // Journal of Materials Science. – 2006. – V.41. – P.763.
85. Kessel H.U. Технология спекания в электрическом поле / H.U.Kessel, J.Hennicke, J.Schmidt / Germany, System gmbh, 2011. – p.33,
86. Goldsmid H.J., Douglas R.W. // Brit. J. Appl. Phys. – 1954. – V.5. – P.386.
87. Zhao L.-D., Zhang B.-P., Liu W.-S., Li J.-F. // Appl. Phys. – 2009. – V.105. – P.023704.
88. Ji X.H., He J., Su Z., Gothard N., Tritt T.M. // Journal of Applied Physics. – 2008. – V.104. – P.034907.
89. Zhang Q., Zhang Q.Y., Chen S., Liu W.S., Lukas K., Yan X., Wang H.Z., Wang D.Z., Opeil C., Chen G., Ren Z.F. // Nano Letters. – 2010.
90. Yu B. Thermoelectric Figure-of-Merit in Bulk p-type PbTe / B.Yu, H.Wang, B.Poudel, K.McEnaney, G.Chen, Z.Ren – APS March Meeting, Pittsburgh, PA, March, 2009.
91. Peranio N., Eibl O., Nurnus J. // Journal of Applied Physics. – 2006. – V.100. – P.114306.
92. Heremans J.P., Thrush C.M., Morelli D.T. // Journal of Applied Physics. – 2005. – V.98. – P.063703.
93. Sootsman J.R., Kong H., Uher C., D'Angelo J.J., Wu C.I., Hogan T.P., Caillat T., Kanatzidis M.G. // Angewandte Chemie-International Edition 47, 8618 (2008). – 2008. – V.47. – P.8618.
94. Hsu K.F., Loo S., Guo F., Chen W., Dyck J.S., Uher C., Hogan T.,. Polychroniadis E.K, Kanatzidis M.G. // Science. – 2004. – V.303. – P.848.
95. Poudeu P.F.R., D'Angelo J., Downey A.D., Short J.L., Hogan T.P.,. Kanatzidis M.G, // Angewandte Chemie-International Edition. – 2006. – V.45. – P.3835.
96. Androulakis J., Hsu K.F., Pcionek R., Kong H., Uher C., DAngelo J.J., Downey A., Hogan T., Kanatzidis M.G. // Advanced Materials. – 2006. – V.18. – P.1170.
97. Kosuga A., Kurosaki K., Muta H., Yamanaka S. // Journal of Alloys and Compounds. – 2006. – V.416. – P.218.
98. Bilc D., Mahanti S.D., Quarez E., Hsu K.F., Pcionek R., Kanatzidis M.G. // Physical Review Letters. – 2004. – V.93. – P.146403.
99. D.I. Bilc, S.D. Mahanti, and M.G. Kanatzidis, Physical Review B 74, 125202 (2006).
100. Zhou M., Li J. F., Kita T. // Journal of the American Chemical Society. – 2008. – V.130. – P.4527.
101. Ikeda T., Haile S.M., Ravi V.A., Azizgolshani H., Gascoin F., J.Snyder G. // Acta Materialia. – 2007. – V.55. – P.1227.
102. Ikeda T., Collins L.A., Ravi V.A., Gascoin F.S., Haile S.M., Snyder G.J. // Chemistry of Materials. – 2007. – V.19. – P.763.
103. Ikeda T., Ravi V.A., Collins L.A., Haile S.M., Snyder G.J. // Journal of Electronic Materials. – 2007. – V.36. – P.716.
104. Androulakis J., Lin C.H., Kong H.J., Uher C., Wu C.I., Hogan T., Cook B.A., Caillat T., Paraskevopoulos K.M., Kanatzidis M.G. // Journal of the American Chemical Society. – 2007. – V.129. – P.9780.
105. Nolas G.S., Wang D., Beekman M. // Physical Review B. – 2007. – V.76. – P.235204.
106. Zaitsev V.K., Fedorov M.I., Gurieva E.A., Eremin I.S., Konstantinov P.P., Samunin A.Y., Vedernikov M.V. // Physical Review B. – 2006. – V.74. – P.045207.
107. Zhang Q., He J., Zhu T.J., Zhang S.N., Zhao X.B., Tritt T.M. // Applied Physics Letters. – 2008. – V.93. – P.102109.
108. Uher C. Recent Trends in Thermoelectric Material Search in Semiconduct. Semimet Vol. 69 / C. Uher. – USA, Academic, 2001.
109. Berardan D. // Appl. Phys. – 2005. – V.98. – P.033710.
110. Slack G.A. CRC Handbook of Thermoelectrics / G.A.Slack. – USA, CRC Press, 1995.
111. Sales B.C., Mandrus D., Williams R.K. // Science. – 1996. – V.272. – P.1325.
112. Chen L.D // Appl. Phys. – 2001. – V.90. – P.1864.
113. Tang X., Zhang Q., Chen L., Goto T., Hirai T. //. Appl. Phys. – 2005. – V.97. – P.093712.
114. Li J.-F. High-performance nanostructured thermoelectric materials / J.- F.Li, W.-S.Liu, L.-D.Zhao, M.Zhou // NPG Asia Mater. – 2010. – V.2. – No4. – P.152.
115. Shi X., Zhang W., Chen L.D., Yang J. // Phys. Rev. Lett. – 2005. – V.95. – P.185503.
116. Pei Y.Z. // Appl. Phys. Lett. – 2006. – V.89. – P.221107.
117. Li H., Tang X., Zhang Q., Uher C. // Appl. Phys. Lett. – 2009. – V.94. – P.102114.
118. Long G.J., Hermann R.P., Grandjean F., Alp E.E., Sturhahn W., Johnson C.E., Brown D.E., Leupold O., Ruffer R. // Physical Review B. – 2005. – V.71. – P.140320.
119. Grannan E.R., Randeria M., Sethna J.P. // Physical Review B. – 1990. – V.41. – P.7799.
120. Yang J., Zhang W., Bai S.Q., Mei Z., Chen L.D. // Applied Physics Letters. – 2007. – V.90. – P.192111.
121. Shi X., Yang J., Salvador J.R., Chi M.F., Cho J.Y., Wang H., Bai S.Q., Yang J.H., Zhang W.Q., Chen L.D. // Journal of the American Chemical Society. – 2011. – V.133. – P.7837.
122. Wood C. // Rep Prog Phys. – 1988. – V.51. – P.459.
123. Vining C.B. // Appl. Phys. – 1991. – V.69. – P.331.
124. Vining C.B., Laskow W., Hanson J.O., der Beck R.R.V., Gorsuch P.D., // Appl. Phys. – 1991. – V.69. – P.4333.
125. Rowe D.M., Fu L.W., Williams S.G.K. // Appl. Phys. – 1993. – V.73. – P.4683.
126. Abdellaoui M., Gaffet E. // Phys. IV France. – 1994. – V.4. – P.3.
127. Gaffet E., Yousfi L. // Mater. Sci. Forum. – 1992. – V.51. – P.88.
128. Uher C., Yang J., Hu S., Morelli D.T., Meisner G.P. // Phys. Rev. B. – 1999. – V.59. – P.8615.
129. Shen Q // Appl. Phys. Lett. – 2001. – V.79. – P.4165.
130. Culp S.R., Poon S.J., Hickman N., Tritt T.M., Blumm J. // Appl. Phys. Lett. – 2006. – V.88. – P.042106.
131. Zou M., Li J.-F., Du B., Liu D., Kita T. // Solid State Chem. – 2009. – V.182. – P.3138.
132. Zhou M., Chen L., Feng C., Wang D., Li J.-F. // Appl. Phys. – 2007. – V.101. – P.113714.
133. Yang J. // Adv. Funct. Mater. – 2008. – V.18. – P.2880.
134. Wang H., Li J.F., Zou M.M., Sui T. // Applied Physics Letters. – 2008. – V.93. – P.202106.
135. Yan X., Poudel B., Ma Y., Liu W.S., Joshi G., Wang H., Lan Y.C., Wang D.Z., Chen G., Ren Z.F. // Nano Letters. – 2010. – V.10. – P.3373.
136. Pichanusakorn P., Bandaru P. // Materials Science and Engineering. – 2010. – V.67. – P.19.
137. Zebarjadi M., Joshi G., Zhu G.H., Yu B., Minnich A., Lan Y.C., Wang X.W., Dresselhaus M., Ren Z.F., Chen G. // Nano Letters. – 2011. – V.11. – P.2225.
138. Venkatasubramanian R., Siivola E., Colpitts T., O’Quinn B. // Nature. – 2001. – V.413. – P.597.
139. Liu W., Yan X., Gang Chen, Ren Z. Recent advances in thermoelectric nanocomposites // Nano Energy. – 2012. – V.1. – P.42.
140. Popescu A., Woods L.M. // Applied Physics Letters. – 2010. – V.97. – P.052102.
141. Zhang Y., Ke X.Z., Chen C.F., Yang J.H., Kent P.R.C. // Physical Review Letters. – 2011. – V.106. – P.206601.
142. Zhao L.D., Zhang B.P., Li J.F., Liu W.S. // Solid State Science. – 2008. – V.10. – P.651.
143. Tang J.Y., Wang H.T., Lee D.H., Fardy M., Huo Z.Y., Russell T.P., Yang P.D. // Nano Letters 10 p.4279 (2010). . – 2010. – V.10. – P.4279.
144. He Y.P., Donadio D., Lee J.H., Grossman J.C., Galli G. // ACS Nano. – 2011. – V.3. – P.1839.
145. Yi T., Chen S., Yang S. Li, H., Bux S., Bian Z., Katcho N.A., Shakouri A.,. Mingo N, Fleurial J.-P., Browning N.D., Kauzlarich S.M. // Mater. Chem. – 2012. – V.22. – P.24805.
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2019-03-07
How to Cite
Фреїк, Д. М., Криницький, О. С., & Матківський, О. М. (2019). ANOCOMPOSITE THERMOELECTRIC MATERIALS PRODUC- TION, PROPERTIES, USING (REVIEW). PRECARPATHIAN BULLETIN OF THE SHEVCHENKO SCIENTIFIC SOCIETY. Number, (1(17), 155–195. Retrieved from https://pvntsh.nung.edu.ua/index.php/number/article/view/242
