Nano liquid metal as an emerging functional material in energy management, conversion and storage

Nano Energy

Volumn 2, Issue 5, 2013, Pages 863-872

  Zhang, Qin ^a   Liu, Jing ^a,b  

^a TECHNICAL INSTITUTE OF PHYSICS AND CHEMISTRY   (China)

^b Tsinghua University   (China)

Author keywords

Coolant; Energy conversion; Energy storage; Nano liquid metal; Nanofluid; Thermal management

Indexed keywords

ENERGY MATERIALS; LOW THERMAL CONDUCTIVITY; NANOFLUIDS; TECHNICAL CHALLENGES; THERMAL AND ELECTRICAL PROPERTIES;

COOLANTS; ELECTRIC PROPERTIES; ENERGY CONVERSION; ENERGY STORAGE; FUNCTIONAL MATERIALS; NANOFLUIDICS; TEMPERATURE CONTROL;

LIQUID METALS;

EID: 84885376089     PISSN: 22112855     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.nanoen.2013.03.002     Document Type: Review

References (76)

1. S.U.S. Choi, J.A. Eastman, Enhancing Thermal Conductivity of Fluids with Nanoparticles, Developments and Applications of Non-Newtonian Flows, International Mechanical Engineering Congress and Exhibition, San Francisco, CA, USA, 1995, pp. 99-105.
2. Lee S., Choi S.U.S., Li S., Eastman J.A. ASME Journal of Heat Transfer 1999, 121:280-289.
3. Razi P., Akhavan-Behabadi M.A., Saeedinia M. International Communications in Heat and Mass Transfer 2011, 38:964-971.
4. Kwak K., Kim C. Korea-Australia Rheology Journal 2005, 17:35-40.
5. Eastmana J.A., Choi S.U.S., Li S., Yu W., Thompson L.J. Applied Physics Letters 2001, 78:718-720.
6. Gao L., Zhou X.F., Ding Y. Chemical Physics Letters 2007, 434:297-300.
7. Das S.K., Putra N., Thiesen P., Roetzel W. ASME Journal of Heat Transfer 2003, 125:567-574.
8. Patel H.E., Das S.K., Sundararajan T., Nair A.S., George B., Pradeep T. Applied Physics Letters 2003, 83:2931-2933.
9. Wang X., Xu X., Choi S.U.S. Journal of Thermophysics and Heat Transfer 1999, 13:474-480.
10. Xie H., Lee H., Youn W., Choi M. Journal of Applied Physics 2003, 94:4967-4971.
11. Hwang Y., Lee J.K., Lee C.H., Jung Y.M., Cheong S.I., Lee C.G., et al. Thermochimica Acta 2007, 455:70-74.
12. Keblinski P., Phillpot S.R.E., Choi S.U.S., Eastman J.A. International Journal of Heat and Mass Transfer 2002, 45:855-863.
13. Evans W., Fish J., Keblinski P. Applied Physics Letters 2006, 88:093116.
14. Chandrasekara M., Suresha S. Heat Transfer Engineering 2009, 30:1136-1150.
15. Harish S., Ishikawa K., Einarsson E., Aikawa S., Chiashi S, Shiomi J., Maruyama S. International Journal of Heat and Mass Transfer 2012, 55:3885-3890.
16. Sharma P., Baek I.-H., Cho T., Park S., Lee K.-B. Powder Technology 2011, 209:7-19.
17. Yu W., Xie H.Q., Chen L.F. Powder Technology 2010, 197:218-221.
18. Choi S.U.S., Zhang Z.G., Yu W., Lockwood F.E., Grulke E.A. Applied Physics Letters 2001, 79:2252.
19. Choi C., Yoo H.S., Oh J.M. Current Applied Physics 2008, 8:710-712.
20. Ma K.Q., Liu J. Physics Letters A 2007, 361:252-256.
21. J. Liu, Y.X. Zhou, Chip Cooling Equipment With Low Melting Point Metal and its Alloy Acting as Working Fluid, China Patent 021314195, 2002.
22. Ma K.Q., Liu Jing Journal of Physics D: Applied Physics 2007, 40:4722-4729.
23. Deng Y.G., Liu Jing International Communications in Heat and Mass Transfer 2010, 37:788-791.
24. Deng Y.G., Liu Jing Heat Mass Transfer 2010, 46:1327-1334.
25. Dai D., Zhou Y.X., Liu J. Renewable Energy 2011, 36:3530-3536.
26. J. Liu, H.Y. Li, A Thermal Energy Harvesting Device and its Fabrication Method. China Patent 201210241718.0, 2012.
27. J. Liu, Piezoelectric Thin Film Electricity Generator and its Fabrication Method, China Patent 2012103225845, 2012.
28. Gao Y.X., Liu J. Applied Physics A 2012, 107:701-708.
29. Zhang Q., Zheng Y., Liu J. Frontiers in Energy 2012, 6:311-340.
30. Gao Y.X., Li H.Y., Liu J. PLoS ONE 2012, 7:e45485.
31. Jeong S.H., Hagman A., Hjort K. Lab on a Chip 2012, 12:4657-4664.
32. Maxwell J.C. A Treatise on Electricity and Magnetism 1881, Clarendon Press, Oxford, UK. 2nd ed.
33. Hamilton R.L., Crosser O.K. Industrial Engineering and Chemistry Fundamentals 1962, 1:187-191.
34. Jeffrey D.J. Proceedings of Royal Society of London. A Mathematical and Physical Sciences 1973, 335:355.
35. Wang B.-X., Zhou L.-P., Peng X.-F. International Journal of Heat and Mass Transfer 2003, 46:2665-2672.
36. Ding Y., Alias H., Wen D., Williams R.A. International Journal of Heat and Mass Transfer 2006, 49:240-250.
37. Liu J.P., Hao X.Y. Modification of Polymer-Based Materials (in Chinese) 2009, Science Press, Beijing. 1st ed.
38. Li H.Y., Liu J. Frontiers in energy 2011, 5:20-42.
39. Iida T., Guthrie R.I.L. The Physical Properties of Liquid Metals 1993, Clarendon Press, Oxford.
40. Shimoji M. Liquid Metals: An Introduction to the Physics and Chemistry of Metals in the Liquid State 1977, Academic Press, New York.
41. Ito R., Dodbiba G., Fujita T. International Journal of Modern Physics B 2005, 19:1430-1436.
42. Fujita T., Park H.-S., Ono K., Matsuo S., Okaya K., Dodbiba G. Journal of Magnetism and Magnetic Materials 2011, 323:1207-1210.
43. Dodbiba G., Ono K., Park H.S., Matsuo S., Fujita T. International Journal of Modern Physics B 2011, 25:947-955.
44. Popplewell J., Charles S.W., Hoon S.R. IEEE Transactions on Magnetics 1980, 16:191-196.
45. Linderoth S., Rasmussen L.H., Morup S. Journal of Applied Physics 1991, 69:5124.
46. AbuAljarayesh I., Bayrakdar A., Yusuf N.A., AbuSafia H. Journal of Applied Physics 1993, 73:6970.
47. H.S. Park, L.-F. Cao, G. Dodbiba, T. Fujita, Preparation and Properties of Silica-Coated Ferromagnetic Nano Particles Dispersed in a Liquid Gallium Based Magnetic Fluid, The University of Tokyo, Japan.
48. Liu T.Y., Sen P., Kim C.J. Journal of Microelectromechanical Systems 2012, 21:443-450.
49. Tostmann H., Shpyrko O., Pershan P.S., Dimasi E., Ocko B., Deutsch M. Physical Review B 1999, 59:783-791.
50. Deng Y.G., Liu J. ASME Journal of Electronic Packaging 2010, 132:031009.
51. Z.S. Deng, J. Liu, Capacity evaluation of a MEMS based micro cooling device using liquid metal as coolant, The 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Zhuhai, China, 2006, pp. 1311-1315.
52. Daungthongsuk W., Wongwises S. Renewable and Sustainable Energy Reviews 2007, 11:797-817.
53. Hong T.-K., Yanga H.-S. Journal of Applied Physics 2005, 97:064311.
54. Li P.P., Liu J. Applied Physics Letters 2011, 99:094106.
55. Sarkar J. Renewable and Sustainable Energy Reviews 2011, 15:3271-3277.
56. Z.H. Han, Nanofluids With Enhanced Thermal Transport Properties, Ph.D. Thesis, University of Maryland, 2008.
57. http://www.answers.com/topic/ferrofluid.
58. L.S. Athanas, Loudspeaker Utilizing Magnetic Liquid Suspension of the Voice Coil, US Patent 5335287, 1994.
59. J.A. King, Method for Making Loudspeaker With Magnetic Fluid Enveloping the Voice Coil, US Patent 4017694, 1977.
60. Taylor R.A., Phelan P.E., Otanicar T.P., Adrian R., Prasher R Nanoscale Research Letters 2011, 6:1-11.
61. Lenert A., Wang E.N. Solar Energy 2012, 86:253-265.
62. T. Otanicar, R.A. Taylor, P.E. Phelan, Impact of Size and Scattering Mode on the Optimal Solar Absorbing Nanofluid, ASME 2009 3rd International Conference on Energy Sustainability 1, 2009, pp. 791-796.
63. Taylor R.A., Phelan P.E., Todd Otanicar C.A., Walker M. Journal of Renewable and Sustainable Energy 2011, 3:023104.
64. A.J. Hunt, Small Particle Heat Exchangers, Lawrence Berkeley Laboratory Paper LBL-7841, 1978.
65. Ona E.P., Ozawa S., Kojima Y., Matsuda H., Hidaka H., Kakiuchi H., et al. Journal of Chemical Engineering of Japan 2003, 36:799-805.
66. Khodadadi J.M., Hosseinizadeh S.F. International Communications in Heat and Mass Transfer 2007, 34:534-543.
67. Cao L.F., Park H., Dodbiba G., Ono K., Tokoro C., Fujita T. Applied Physics Letters 2011, 99:143120.
68. Ge H.S., Li H.Y., Mei S.F., Liu J Low melting point liquid metal as a new class of phase change material: an emerging frontier in energy area. Renewable and Sustainable Energy Review 2013, 21:331-346.
69. Ge H.S., Liu J. Frontiers in Energy 2012, 6:207-209.
70. H.S. Ge, J. Liu, Keeping smartphones cool with gallium phase change material, ASME Journal of Heat Transfer, in press. http://dx.doi.org/10.1115/1.4023392.
71. Xuan Y.M., Li Q. Energy Transfer Theory and Application of Nanofluids (in Chinese) 2010, Science Press, Beijing. 1st ed.
72. Deng Y.G., Liu J. Applied Physics A 2009, 95:907-915.
73. Surmann.P., Zeyat H. Analytical and Bioanalytical Chemistry 2005, 383:1009-1013.
74. Wang Z.L. Nanogenerators for Self-powered Devices and Systems 2011, Georgia Institute of Technology, Atlanta. 1st ed.
75. Liu J. Micro/Nano Scale Heat Transfer (in Chinese) 2006, Science Press, Beijing. 4th ed.
76. Buongiomo J., Venerus D.C., Prabhat N., McKrell T., Townsend J., Christianson R. Journal of Applied Physics 2009, 106:094312.