Special Issue
  • Development of Carbon Composite Bipolar Plates for PEMFC

  • Jun Woo Lim*†

  • Graduate School of Flexible and Printable Electronics, LANL-CBNU Engineering Institute Korea

  • 양성자 교환막 연료전지용 탄소 복합재료 분리판 개발

  • 임준우*

References
  • 1. Antunes, R.A., de Oliveira, M.C.L., Ett, G., and Ett, V., “Carbon Materials in Composite Bipolar Plates for Polymer Electrolyte Membrane Fuel Cells: a Review of the Main Challenges to Improve Electrical Performance,” Journal of Power Sources, Vol. 196, 2011, pp. 2945-2961.
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  • 2. Muller, A., Kauranen, P., von Ganski, A., and Hell, B., “Injection Moulding of Graphite Composite Bipolar Plates,” Journal of Power Sources, Vol, 154, 2006, pp. 467-471.
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  • 3. Kakati, B.K., and Deka, D., “Differences in Physico-mechanical Behaviors of Resol(e) and Novolac Type Phenolic Resin Based Composite Bipolar Plate for Proton Exchange Membrane (PEM) Fuel Cell,” Electrochimica Acta, Vol. 52, 2007, pp. 7330-7336.
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  • 4. Lim, J.W., and Lee, D.G., “Development of the Hybrid Insert for Composite Sandwich Satellite Structures,” Composites Part A, Vol. 42, 2011, pp. 1040-1048.
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  • 5. Blunk, R., Elhamid, M.H.A., Lisi, D., and Mikhail, Y., “Polymeric Composite Bipolar Plates for Vehicle Applications,” Journal of Power Sources, Vol. 156, 2006, pp. 151-157.
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  • 6. Lee, J.H., Jang, Y.K., Hong, C.E., Kim, N.H., Li, P., and Lee, H.K., “Effect of Carbon Fillers on Properties of Polymer Composite Bipolar Plates of Fuel Cells,” Journal of Power Sources, Vol. 193, 2009, pp. 523-529.
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  • 7. Jiang, X., and Drzal, L.T., “Exploring the Potential Of Exfoliated Graphene Nanoplatelets as the Conductive Filler in Polymeric Nanocomposites for Bipolar Plates,” Journal of Power Sources, Vol. 218, 2012, pp. 297-306.
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  • 8. Gibson, R.F., “A Review of Recent Research on Mechanics of Multifunctional Composite Materials and Structures,” Composite Structures, Vol. 92, 2010, pp. 2793-2810.
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  • 9. Lim, J.W., and Lee, D.G., “Development of Composite-metal Hybrid Bipolar Plates for PEM Fuel Cells,” International Journal of Hydrogen Energy, Vol. 37, 2012, pp. 12504-12512.
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  • 10. Lim, J.W., Kim, M., Kim, K.H., and Lee, D.G., “Innovative Gasketless Carbon Composite Bipolar Plates for PEM Fuel Cells,” International Journal of Hydrogen Energy, Vol. 37, 2012, pp. 19018-19026.
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  • 11. Lim, J.W., and Lee, D.G., “Carbon Composite Hybrid Bipolar Plates with Bypass Connected Gas Diffusion Layers for PEM Fuel Cells,” Composite Structures, Vol. 95, 2013, pp. 557-563.
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  • 12. Lim, J.W., and Lee, D.G., “Carbon Fiber/polyethylene Bipolar Plate-carbon Felt Electrode Assembly for Vanadium Redox Flow Batteries (VRFB),” Composite Structures, Vol. 134, 2015, pp. 483-492.
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  • 13. Lim, J.W., Lee, D.Y., Kim, M.K., Choe, J.H., Nam, S.H., and Lee, D.G., “Composite Structures for Proton Exchange Membrane Fuel Cells (PEMFC) and Energy Storage Systems (ESS): Review,” Composite Structures, Vol. 134, 2015, pp. 927-949.
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  • 14. Lee, D.Y., Lee, D.G., and Lim, J.W., “Development of Multifunctional Carbon Composite Bipolar Plate for Vanadium Redox Flow Batteries” Journal of Intelligent Material Systems and Structures, Vo.l 29, Iss. 17, 2018, pp. 3386-3395.
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  • 15. Lee, D.Y., Lee, D.G., and Lim, J.W., “Experimental Implementation of a New Composite Fabrication Method: Exposing Bare Fibers on the Composite Surface by the Soft Layer Method,” Journal of Visualized Experiments, No. 128, 2017, pp. e55815
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This Article

Correspondence to

  • Jun Woo Lim

  • Graduate School of Flexible and Printable Electronics, LANL-CBNU Engineering Institute Korea

  • E-mail: jul170@jbnu.ac.kr