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Fabrication of nanofibrous mats with uniform thickness and fiber density

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dc.contributor.author Lee, Jongwan ko
dc.contributor.author Jeong, Young Hun ko
dc.contributor.author Cho, Dong-Woo ko
dc.date.available 2014-04-14T00:27:16Z -
dc.date.created 2014-04-03 ko
dc.date.issued 2014-09 ko
dc.identifier.citation MACROMOLECULAR MATERIALS AND ENGINEERING, v.299, no.9, pp.1052 - 1061 ko
dc.identifier.issn 1438-7492 ko
dc.identifier.uri https://scholarworks.unist.ac.kr/handle/201301/4231 -
dc.description.abstract Because of their unique advantages, non-woven nanofibrous mats are now being widely used in various fields. Accordingly, a variety of fabrication techniques have been proposed for manufacturing these mats. Electrospinning has emerged as one of the most popular methods for fabricating nanofibers. However, the whipping motion of the electrospinning jet of conventional electrospinning imposes a knotty limitation on the geometric control. Thus, when nanofibrous mats are fabricated via electrospinning, geometric uniformity cannot be assured, and this can significantly affect the performance, quality, and reliability of their applications. In this study, a direct-write electrospinning-based fabrication method for nanofibrous mats that provides greater overall thickness and fiber-density uniformity is proposed. Various nanofibrous mats fabricated via the proposed method are presented, and their morphological and mechanical properties are experimentally investigated. The fabricated nanofibrous mats exhibit better thickness and fiber-density uniformity, and their mechanical properties are controllable. ko
dc.description.statementofresponsibility close -
dc.language 영어 ko
dc.publisher WILEY-V C H VERLAG GMBH ko
dc.title Fabrication of nanofibrous mats with uniform thickness and fiber density ko
dc.type ARTICLE ko
dc.identifier.scopusid 2-s2.0-84908206643 ko
dc.identifier.wosid 000342838100003 ko
dc.type.rims ART ko
dc.description.wostc 0 *
dc.description.scopustc 0 *
dc.date.tcdate 2015-02-28 *
dc.date.scptcdate 2014-07-12 *
dc.identifier.doi 10.1002/mame.201300390 ko
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