Manufacturing all-polymer laminar flow-based fuel cells

Journal of Power Sources

Volumn 240, Issue , 2013, Pages 486-493

  Hollinger, A S ^a   Kenis, P J A ^a  

^a UNIVERSITY OF ILLINOIS AT URBANA CHAMPAIGN   (United States)

Author keywords

Fuel cell; Laminar flow; Manufacturing; Microfluidic; Polymer; Stack

Indexed keywords

ALTERNATIVE APPROACH; MAXIMUM POWER DENSITY; METALLIZED POLYMERS; MICROFLUIDIC FUEL CELL; PORTABLE ELECTRONIC DEVICES; PORTABLE POWER APPLICATIONS; POWER REQUIREMENT; STACK;

CATHODES; FUEL CELLS; GAS FUEL PURIFICATION; LAMINAR FLOW; MANUFACTURE; MICROFLUIDICS;

POLYMERS;

EID: 84877847230     PISSN: 03787753     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jpowsour.2013.04.053     Document Type: Article

References (44)

1. A. Manz, N. Graber, and H.M. Widmer Sensors and Actuators B Chemical B1 1990 244 248
2. K.F. Jensen Chemical Engineering Science 56 2001 293 303
3. D. Erickson, and D. Li Analytica Chimica Acta 507 2004 11 26
4. L. Li, and R.F. Ismagilov Protein Crystallization Using Microfluidic Technologies Based on Valves, Droplets and SlipChip D.C. Rees, K.A. Dill, J.R. Williamson, Annual Review of Biophysics vol. 39 2010 139 158
5. R. Pal, M. Yang, R. Lin, B.N. Johnson, N. Srivastava, S.Z. Razzacki, K.J. Chomistek, D.C. Heldsinger, R.M. Haque, V.M. Ugaz, P.K. Thwar, Z. Chen, K. Alfano, M.B. Yim, M. Krishnan, A.O. Fuller, R.G. Larson, D.T. Burke, and M.A. Burns Lab on a Chip 5 2005 1024 1032
6. M. Toner, and D. Irimia Blood-on-a-chip Annual Review of Biomedical Engineering 2005 Annual Reviews Palo Alto 77 103 (Pubitemid 41174581)
7. C.C. Lee, G.D. Sui, A. Elizarov, C.Y.J. Shu, Y.S. Shin, A.N. Dooley, J. Huang, A. Daridon, P. Wyatt, D. Stout, H.C. Kolb, O.N. Witte, N. Satyamurthy, J.R. Heath, M.E. Phelps, S.R. Quake, and H.R. Tseng Science 310 2005 1793 1796
8. P. Yager, T. Edwards, E. Fu, K. Helton, K. Nelson, M.R. Tam, and B.H. Weigl Nature 442 2006 412 418
9. H. Becker, and L.E. Locascio Talanta 56 2002 267 287
10. A. de Mello Lab on a Chip 2 2002 31N 36N
11. H. Becker, and C. Gartner Analytical and Bioanalytical Chemistry 390 2008 89 111
12. C.-W. Tsao, and D.L. DeVoe Microfluidics and Nanofluidics 6 2009 1 16
13. G.M. Whitesides Nature 442 2006 368 373
14. E.R. Choban, L.J. Markoski, A. Wieckowski, and P.J.A. Kenis Journal of Power Sources 128 2004 54 60
15. J.L. Cohen, D.A. Westly, A. Pechenik, and H.D. Abruña Journal of Power Sources 139 2005 96 105
16. R.S. Jayashree, D. Egas, J.S. Spendelow, D. Natarajan, L.J. Markoski, and P.J.A. Kenis Electrochemical and Solid-State Letters 9 2006 A252 A256
17. F.R. Brushett, R.S. Jayashree, W.-P. Zhou, and P.J.A. Kenis Electrochimica Acta 54 2009 7099 7105
18. E. Kjeang, N. Djilali, and D. Sinton Journal of Power Sources 186 2009 353 369
19. A.S. Hollinger, R.J. Maloney, R.S. Jayashree, D. Natarajan, L.J. Markoski, and P.J.A. Kenis Journal of Power Sources 195 2010 3523 3528
20. S.A.M. Shaegh, N.T. Nguyen, and S.H. Chan International Journal of Hydrogen Energy 36 2011 5675 5694
21. J. Wheldon, W.-J. Lee, D.-H. Lim, A.B. Broste, M. Bollinger, and W.H. Smyrl Electrochemical and Solid-State Letters 12 2009 B86 B89
22. S. Tominaka, H. Nishizeko, J. Mizuno, and T. Osaka Energy and Environmental Science 2 2009 1074 1077
23. S. Metz, R. Holzer, and P. Renaud Lab on a Chip 1 2001 29 34
24. M.R. Thorson, F.R. Brushett, C.J. Timberg, and P.J.A. Kenis Journal of Power Sources 218 2012 28 33
25. J.Y. Jeong, S.E. Babayan, V.J. Tu, J. Park, I. Henins, R.F. Hicks, and G.S. Selwyn Plasma Sources Science & Technology 7 1998 282 285
26. J.Y. Jeong, S.E. Babayan, A. Schutze, V.J. Tu, J. Park, I. Henins, G.S. Selwyn, and R.F. Hicks Journal of Vacuum Science & Technology A 17 1999 2581 2585
27. M. Moravej, X. Yang, R.F. Hicks, J. Penelon, and S.E. Babayan Journal of Applied Physics 99 2006
28. M.J. Shenton, M.C. Lovell-Hoare, and G.C. Stevens Journal of Physics D Applied Physics 34 2001 2754 2760
29. F.D. Egitto, and L.J. Matienzo IBM Journal of Research and Development 38 1994 423 439
30. A. Schutze, J.Y. Jeong, S.E. Babayan, J. Park, G.S. Selwyn, and R.F. Hicks IEEE Transactions on Plasma Science 26 1998 1685 1694
31. M. Moravej, X. Yang, G.R. Nowling, J.P. Chang, R.F. Hicks, and S.E. Babayan Journal of Applied Physics 96 2004 7011 7017
32. J. Park, I. Henins, H.W. Herrmann, and G.S. Selwyn Journal of Applied Physics 89 2001 15 19
33. E.H. Jung, U.H. Jung, T.H. Yang, D.H. Peak, D.H. Jung, and S.H. Kim International Journal of Hydrogen Energy 32 2007 903 907
34. R.S. Jayashree, M. Mitchell, D. Natarajan, L.J. Markoski, and P.J.A. Kenis Langmuir 23 2007 6871 6874
35. F.R. Brushett, W.-P. Zhou, R.S. Jayashree, and P.J.A. Kenis Journal of the Electrochemical Society 156 2009 B565 B571
36. F.R. Brushett, A.S. Hollinger, L.J. Markoski, and P.J.A. Kenis ASME 2nd Micro/Nanoscale Heat & Mass Transfer International Conference 2009 American Society of Mechanical Engineers Shanghai, China 247 252
37. F.R. Brushett, H.T. Duong, J.W.D. Ng, R.L. Behrens, A. Wieckowski, and P.J.A. Kenis Journal of the Electrochemical Society 157 2010 B837 B845
38. F.R. Brushett, M.S. Thorum, N.S. Lioutas, M.S. Naughton, C. Tornow, H.R. Jhong, A.A. Gewirth, and P.J.A. Kenis Journal of the American Chemical Society 132 2010 12185 12187
39. M.S. Naughton, F.R. Brushett, and P.J.A. Kenis Journal of Power Sources 196 2011 1762 1768
40. E.R. Choban, P. Waszczuk, and P.J.A. Kenis Electrochemical and Solid-State Letters 8 2005 A348 A352
41. R.S. Jayashree, S.K. Yoon, F.R. Brushett, P.O. Lopez-Montesinos, D. Natarajan, L.J. Markoski, and P.J.A. Kenis Journal of Power Sources 195 2010 3569 3578
42. M.A. Meitl, Z.T. Zhu, V. Kumar, K.J. Lee, X. Feng, Y.Y. Huang, I. Adesida, R.G. Nuzzo, and J.A. Rogers Nature Materials 5 2006 33 38
43. S. Miserere, G. Mottet, V. Taniga, S. Descroix, J.L. Viovy, and L. Malaquin Lab on a Chip 12 2012 1849 1856
44. M. Focke, D. Kosse, C. Muller, H. Reinecke, R. Zengerle, and F. von Stetten Lab on a Chip 10 2010 1365 1386