Titlebook: Electrospun Nanofibers for Energy and Environmental Applications; Bin Ding,Jianyong Yu Book 2014 Springer-Verlag Berlin Heidelberg 2014 El

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https://doi.org/10.1057/978-1-137-54291-5ress in the development of electrospun nanofibrous membranes (e.g., organic, hybrid, inorganic) for fine particle filtration, describe the types of nanofibrous materials that have been developed, and discuss their structure variables and particle filtration performance in detail. This chapter may tr

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D. Albers,G. Alexanderson,Constance Reidun nanofibrous membranes is envisioned not only to absorb or block toxic chemical and biological agents but also to detoxify them to reduce the risk of secondary contamination. The aim of this chapter is to examine the use of electrospun nanofibers for developing protective clothing materials that c

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International Mediation Interactiontages of the optional design of the nanostructures (such as solid, porous, hollow, core-sheath, hierarchical fibers, etc.), thus exhibiting a high photocatalytic property. In this chapter, we present the applications of electrospun inorganic semiconductor nanofibers and the electrospun polymeric nan

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Electrospun Nanofibers: Solving Global Issues It is also possible to produce nanofibrous membranes with designed aggregate structure including alignment, patterning, and two-dimensional nanonets. Finally, the brief analysis of nanofibers used for advanced energy and environmental applications in the past decade indicates that their impact has

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Electrospun Nanofibers for Design and Fabrication of Electrocatalysts and Electrolyte Membranes for dimensional, directional, and compositional flexibility. In this chapter, the application of electrospun nanofibers for the specific design and fabrication of different components is reviewed in detail. Particular progresses with the use of electrospun nanofibers on improved fuel cell performance,

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只看該作者 · 發(fā)表于 2025-3-24 21:06:58

Application of Electrospun Nanofibers in Organic Photovoltaicsnic and inorganic semiconductor as organic–inorganic hybrid photovoltaic cells has been extensively investigated to overcome the low mobility of carriers by using nanostructured inorganic materials as electron acceptors and/or electron transporting layers. The use of inorganic semiconductors in the

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