Bimodal fiber diameter distributed graphene oxide/nylon-6 composite nanofibrous mats via electrospinning
[Display omitted] ► Large scale fabrication of spider-wave-like nano-nets of nylon-6 was carried out by adding suitable amounts of GO. ► The mechanism of formation of bimodal fibers which differs by one order in their diameter was proposed. ► The suitable amounts of GO required to fabricate bimodal...
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Published in | Colloids and surfaces. A, Physicochemical and engineering aspects Vol. 407; pp. 121 - 125 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
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Elsevier B.V
05.08.2012
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Abstract | [Display omitted]
► Large scale fabrication of spider-wave-like nano-nets of nylon-6 was carried out by adding suitable amounts of GO. ► The mechanism of formation of bimodal fibers which differs by one order in their diameter was proposed. ► The suitable amounts of GO required to fabricate bimodal spider-wave-like nano-nets was investigated.
In this work, nylon-6 spider-wave-like nano-nets are fabricated by regulating the amount of graphene oxide (GO) in polymer solution during electrospinning. The spider-wave-like nano-nets that comprise interlinked thin (≈14nm diameter) and thick fibers (≈192nm diameter) are widely distributed throughout the mat when suitable amount of GO is blended with nylon-6 solution. The heterogeneous composite mats were composed of bimodal nanofibers in which pore diameter was sufficiently decreased. The acceleration in ionization and degradation of nylon-6 (due to formic acid) solution caused by well-dispersed GO sheet as well as the formation of hydrogen bond between nylon-6 molecules and GO sheet during electrospinning are proposed as the possible mechanisms for the formation of these spider-wave-like nano-nets. |
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AbstractList | [Display omitted]
► Large scale fabrication of spider-wave-like nano-nets of nylon-6 was carried out by adding suitable amounts of GO. ► The mechanism of formation of bimodal fibers which differs by one order in their diameter was proposed. ► The suitable amounts of GO required to fabricate bimodal spider-wave-like nano-nets was investigated.
In this work, nylon-6 spider-wave-like nano-nets are fabricated by regulating the amount of graphene oxide (GO) in polymer solution during electrospinning. The spider-wave-like nano-nets that comprise interlinked thin (≈14nm diameter) and thick fibers (≈192nm diameter) are widely distributed throughout the mat when suitable amount of GO is blended with nylon-6 solution. The heterogeneous composite mats were composed of bimodal nanofibers in which pore diameter was sufficiently decreased. The acceleration in ionization and degradation of nylon-6 (due to formic acid) solution caused by well-dispersed GO sheet as well as the formation of hydrogen bond between nylon-6 molecules and GO sheet during electrospinning are proposed as the possible mechanisms for the formation of these spider-wave-like nano-nets. In this work, nylon-6 spider-wave-like nano-nets are fabricated by regulating the amount of graphene oxide (GO) in polymer solution during electrospinning. The spider-wave-like nano-nets that comprise interlinked thin (≈14nm diameter) and thick fibers (≈192nm diameter) are widely distributed throughout the mat when suitable amount of GO is blended with nylon-6 solution. The heterogeneous composite mats were composed of bimodal nanofibers in which pore diameter was sufficiently decreased. The acceleration in ionization and degradation of nylon-6 (due to formic acid) solution caused by well-dispersed GO sheet as well as the formation of hydrogen bond between nylon-6 molecules and GO sheet during electrospinning are proposed as the possible mechanisms for the formation of these spider-wave-like nano-nets. |
Author | Pant, Hem Raj Kim, Cheol Sang Tijing, Leonard D. Lee, Do-Hee Amarjargal, Altangerel Park, Chan Hee |
Author_xml | – sequence: 1 givenname: Hem Raj surname: Pant fullname: Pant, Hem Raj email: hempant@jbnu.ac.kr organization: Department of Bionanosystem Engineering, Chonbuk National University, Jeonju 561-756, South Korea – sequence: 2 givenname: Chan Hee surname: Park fullname: Park, Chan Hee organization: Department of Bionanosystem Engineering, Chonbuk National University, Jeonju 561-756, South Korea – sequence: 3 givenname: Leonard D. surname: Tijing fullname: Tijing, Leonard D. organization: Division of Mechanical Design Engineering, Chonbuk National University, Jeonju, South Korea – sequence: 4 givenname: Altangerel surname: Amarjargal fullname: Amarjargal, Altangerel organization: Department of Bionanosystem Engineering, Chonbuk National University, Jeonju 561-756, South Korea – sequence: 5 givenname: Do-Hee surname: Lee fullname: Lee, Do-Hee organization: Department of Bionanosystem Engineering, Chonbuk National University, Jeonju 561-756, South Korea – sequence: 6 givenname: Cheol Sang surname: Kim fullname: Kim, Cheol Sang email: chskim@jbnu.ac.kr organization: Department of Bionanosystem Engineering, Chonbuk National University, Jeonju 561-756, South Korea |
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► Large scale fabrication of spider-wave-like nano-nets of nylon-6 was carried out by adding suitable amounts of GO. ► The mechanism of... In this work, nylon-6 spider-wave-like nano-nets are fabricated by regulating the amount of graphene oxide (GO) in polymer solution during electrospinning. The... |
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SubjectTerms | colloids Electrospinning formic acid graphene Graphene oxide hydrogen bonding ionization Nanocomposite nanofibers Nylon-6 polymers Spider-wave |
Title | Bimodal fiber diameter distributed graphene oxide/nylon-6 composite nanofibrous mats via electrospinning |
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