Preparation of flexible phenolic resin-based porous carbon fabrics by electrospinning

Chemical Engineering Journal

Volumn 218, Issue , 2013, Pages 232-237

  Wang, Lei ^a   Huang, Zheng Hong ^a   Yue, Mengbin ^b   Li, Mingzhe ^a   Wang, Mingxi ^a   Kang, Feiyu ^a  

^a TSINGHUA UNIVERSITY   (China)

^b CHINA UNIVERSITY OF MINING AND TECHNOLOGY   (China)

Author keywords

Carbon fiber; Electrospinning; Ribbons; Thermosetting phenolic resin

Indexed keywords

AFTER-HEAT TREATMENT; ELECTROCHEMICAL APPLICATIONS; ELECTROSPUNS; HIGH ASPECT RATIO; HIGH EVAPORATION RATE; HIGH MOLECULAR WEIGHT; LOW TEMPERATURES; POLYVINYL BUTYRAL; POROUS CARBONS; RIBBONS;

ADSORPTION; ASPECT RATIO; CARBON FIBERS; CARBONIZATION; CURING; ELECTROSPINNING; ETHANOL; PHENOLIC RESINS; PHENOLS; RESINS; THERMOSETS;

AUTOMOBILE MANUFACTURE;

EID: 84872385807     PISSN: 13858947     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cej.2012.12.042     Document Type: Article

References (28)

1. Inagaki M., Kang F.Y. Carbon Materials Science and Engineering: From Fundamentals to Applications 2006, Tsinghua University Press, Beijing.
2. Lee J., Kim J., Hyeon T. Recent progress in the synthesis of porous carbon materials. Adv. Mater. 2006, 18:2073-2094.
3. Wang L., Wang M., Huang Z.H., Cui T.X., Gui X.C., Kang F.Y., Wang K.L., Wu D.H. Capacitive deionization of NaCl solutions using carbon nanotube sponge electrodes. J. Mater. Chem. 2011, 21:18295-18299.
4. Wang M., Huang Z., Wang L., Wang M., Kang F., Hou H. Electrospun ultrafine carbon fiber webs for electrochemical capacitive desalination. New J. Chem. 2010, 34:1843-1845.
5. Ryoo M.W., Seo G. Improvement in capacitive deionization function of activated carbon cloth by titania modification. Water Res. 2003, 37:1527-1534.
6. Greiner A., Wendorff J.H. Electrospinning: a fascinating method for the preparation of ultrathin fibres. Angew. Chem. Int. Edit. 2007, 46:5670-5703.
7. Dong Z., Kennedy S.J., Wu Y. Electrospinning materials for energy-related applications and devices. J. Power Sources 2011, 196:4886-4904.
8. Liu C., Lai K., Liu W., Yao M., Sun R. Preparation of carbon nanofibres through electrospinning and thermal treatment. Polym. Int. 2009, 58:1341-1349.
9. Inomata K., Otake Y. Formation and development of micropores in carbon prepared via catalytic carbonization of phenolic resin containing Fe or Ni compounds. Micropor. Mesopor. Mater. 2011, 143:60-65.
10. Liu C.L., Guo Q.G., Shi J.L., Liu L. Microstructure evolution in preparation of carbon fibers from phenolic resin. New Carbon Mater. 2004, 19:124-128.
11. Cai Q., Huang Z.H., Kang F.Y., Yang J.B. Preparation of activated carbon microspheres from phenolic-resin by supercritical water activation. Carbon 2004, 42:775-783.
12. Yang J.B., Ling L.C., Liu L., Kang F.Y., Huang Z.H., Wu H. Preparation and properties of phenolic resin-based activated carbon spheres with controlled pore size distribution. Carbon 2002, 40:911-916.
13. Tennison S.R. Phenolic-resin-derived activated carbons. Appl. Catal. A-Gen. 1998, 173:289-311.
14. Wang M.X., Huang Z.H., Kang F.Y., Liang K.M. Porous carbon nanofibers with narrow pore size distribution from electrospun phenolic resins. Mater. Lett. 2011, 65:1875-1877.
15. Imaizumi S., Matsumoto H., Suzuki K., Minagawa M., Kimura M., Tanioka A. Phenolic resin-based carbon thin fibers prepared by electrospinning: additive effects of poly(vinyl butyral) and electrolytes. Polym. J. 2009, 41:1124-1128.
16. Suzuki K., Matsumoto H., Minagawa M., Kimura M., Tanioka A. Preparation of carbon fiber fabrics from phenolic resin by electrospray deposition. Polym. J. 2007, 39:1128-1134.
17. G. Karles, D. Gee, G. Wnek, J. Layman, M. Zhuang, Electroprocessed phenolic materials and methods, 2007.
18. Koombhongse S., Liu W.X., Reneker D.H. Flat polymer ribbons and other shapes by electrospinning. J. Polym. Sci. Polym. Phys. 2001, 39:2598-2606.
19. Krishnappa R., Desai K., Sung C.M. Morphological study of electrospun polycarbonates as a function of the solvent and processing voltage. J. Mater. Sci. 2003, 38:2357-2365.
20. Fong H., Liu W.D., Wang C.S., Vaia R.A. Generation of electrospun fibers of nylon 6 and nylon 6-montmorillonite nanocomposite. Polymer 2002, 43:775-780.
21. Celebioglu A., Uyar T. Electrospun porous cellulose acetate fibers from volatile solvent mixture. Mater. Lett. 2011, 65:2291-2294.
22. Koski A., Yim K., Shivkumar S. Effect of molecular weight on fibrous PVA produced by electrospinning. Mater. Lett. 2004, 58:493-497.
23. Ballengee J.B., Pintauro P.N. Morphological control of electrospun nafion nanofiber mats. J. Electrochem. Soc. 2011, 158:B568-B572.
24. Kang H.G., Zhu Y.H., Yang X.L., Jing Y.J., Lengalova A., Li C.Z. A novel catalyst based on electrospun silver-doped silica fibers with ribbon morphology. J. Colloid Interf. Sci. 2010, 341:303-310.
25. Supaphol P., Mit-Uppatham C., Nithitanakul M. Ultrafine electrospun polyamide-6 fibers: effect of emitting electrode polarity on morphology and average fiber diameter. J. Polym. Sci. Polym. Phys. 2005, 43:3699-3712.
26. Seo H., Matsumoto H., Hara S., Minagawa M., Tanioka A., Yako H., Yamagata Y., Inoue K. Preparation of polysaccharide nanofiber fabrics by electrospray deposition: additive effects of poly(ethylene oxide). Polym. J. 2005, 37:391-398.
27. Louis P. Phenolic Resins: a Century of Progress 2010, Springer. first ed.
28. Daley M.A., Tandon D., Economy J., Hippo E.J. Elucidating the porous structure of activated carbon fibers using direct and indirect methods. Carbon 1996, 34:1191-1200.