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/10.1007/978-3-030-16245-0 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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Vangelis Karamitrousis M.D., Msc., Bsc.ion of architectured, nanofibrous materials for electrodes of lithium-ion batteries with particular emphasis on improved energy and power density imparted by performance improvement via better ionic conductivity, cyclability, reversibility, and electrochemical stability of electrospun electrode for

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The International Legal Framework for Seals,excellent electron transport properties compared with conventional nanoparticle systems with disordered geometrical structures, as well as the potential of large-scale production. Electrospinning method can also be used to prepare polymer gel electrolytes to replace the traditional liquid electrolyt

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Kamil A. Bekiashev,Vitali V. Serebriakovnic 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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rication is electrospinning, which has many advantages compared with other conventional methods, such as straightforward, inexpensive, and capability of mass production. In this chapter, the emerging innovative application of electrospun nanofiber products in supercapacitor is discussed, and some re

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International Marketing Managementh in its bulk form and in nanostructured forms, more precisely nanofibers and nanospheres, to store hydrogen via physisorption. It is found that the bulk form of polyaniline can store only approximately 0.5 wt% hydrogen, which is far short of the 6 wt% required for practical applications. Nanofibers

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https://doi.org/10.1007/978-3-662-66800-9ly used and encapsulated within the polymer (cellulose acetate (CA), polyethylene terephthalate (PET), polyvinylpyrrolidone (PVP), etc.) fibrous matrix, which served as structure-supporting component. The type of the PCMs and the ratio of PCM/polymer (or PCM content) dramatically affected the morpho

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Marketing Research in the Global Environmentnofiber-supported metal-organic frameworks, carbon nanofibers, ionic liquid-based nanofibrous membranes, metal oxide nanofibers, etc.) for CO. capture, describe the types of nanofibrous materials that have been developed, and discuss their fabrication variables and CO. adsorption performance in deta