Nitrogen-doped ultrathin carbon nanofibers derived from electrospinning: Large-scale production, unique structure, and application as electrocatalysts for oxygen reduction

► Ultrathin N-doped carbon nanofibers (NCNFs) are prepared by electrospinning. ► The NCNFs as thin as 20 nm are produced in the form of large-area membranes. ► There are many exposed graphitic layer edges on the surface of the NCNFs. ► The NCNFs exhibit excellent electrocatalytic performance for oxy...

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Bibliographic Details
Published in:Journal of power sources 2011-12, Vol.196 (23), p.9862-9867
Main Authors: Qiu, Yejun, Yu, Jie, Shi, Tongnan, Zhou, Xiaosong, Bai, Xuedong, Huang, Jian Yu
Format: Article
Language:English
Subjects:
Carbon
Carbon fibers
Carbon nanofibers
Catalysis
Catalysts: preparations and properties
Chemistry
Electrocatalysts
Electrochemistry
Electrospinning
Exact sciences and technology
Exposure
Fuel cells
General and physical chemistry
Membranes
Miscellaneous (electroosmosis, electrophoresis, electrochromism, electrocrystallization, ...)
Nanofibers
NH 3
Nitrogen-doped carbon
Oxygen reduction
Reduction
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
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Summary:► Ultrathin N-doped carbon nanofibers (NCNFs) are prepared by electrospinning. ► The NCNFs as thin as 20 nm are produced in the form of large-area membranes. ► There are many exposed graphitic layer edges on the surface of the NCNFs. ► The NCNFs exhibit excellent electrocatalytic performance for oxygen reduction. ► The NCNF membranes with low cost are superior in application of fuel cells. Ultrathin nitrogen-doped carbon nanofibers (NCNFs) with unique structure are prepared by electrospinning. The ultrathin NCNFs are produced in the form of large-area membranes by carbonizing electrospun polyacrylonitrile (PAN) nanofibers in NH 3. The diameter of the NCNFs can be effectively reduced due to the etching reactivity of NH 3 with carbon and the average diameter down to 20 nm is obtained. The NCNFs carbonized in NH 3 possess unique structure that many graphitic layers protrude from the fiber surface with their edges exposed. The nitrogen doped in the NCNFs is mainly from that contained in the PAN molecules and partially from ambient NH 3. The membranes of the ultrathin NCNFs exhibit high electrocatalytic activity, long-term operation stability, and excellent tolerance to crossover effect during oxygen reduction reaction in fuel cells. The high electrocatalytic activity of the ultrathin NCNFs may be mainly ascribed to their small diameter and exposed graphitic layer edges apart from N doping. Due to the simplicity in production, low cost, absence of metal residue, and the material form of freestanding membrane with large area the ultrathin NCNFs derived from electrospinning hold high promise for the practical application of fuel cells.
ISSN:0378-7753
1873-2755
DOI:10.1016/j.jpowsour.2011.08.013