A cost effective and facile approach to prepare beadless polycarbonate nanofibers with ultrafine fiber morphology

Preparing defect free nanofibers with average diameter well below 100 nm is a challenge to researchers by electrospinning technology. In the present contribution, the electrospinning method was utilized to prepare beadless polycarbonate (PC) nanofibers with average diameter 90 nm using comparatively...

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Published inPolymer engineering and science Vol. 59; no. 9; pp. 1799 - 1809
Main Authors Baby, Thomas, Jose E, Tomlal, Thomas, P.C., Mathew, Jomit T.
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.09.2019
Society of Plastics Engineers, Inc
Blackwell Publishing Ltd
Subjects
Composition
Dichloromethane
Dimethylformamide
Electrospinning
Fibers
Materials research
Morphology
Nanofibers
Nanotechnology
Parameters
Personal computers
Polycarbonate resins
Polycarbonates
Polymers
Production processes
Properties
Solvents
Technology
Ultrafines
India
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Abstract Preparing defect free nanofibers with average diameter well below 100 nm is a challenge to researchers by electrospinning technology. In the present contribution, the electrospinning method was utilized to prepare beadless polycarbonate (PC) nanofibers with average diameter 90 nm using comparatively less toxic and suitable solvents in a convenient way. Spinning PC with pure dichloromethane (DCM) and also with 1:1 mixture of DCM and N,N dimethylformamide under the same spinning parameters with varying PC concentration has very much helped to establish the effect of solvents on fiber formation. This study also proved the impact of solution concentration, viscosity, and solution conductivity on the formation of beadless ultrafine PC fibers and subsequently on the bead density and average fiber diameter. The appropriate proportion of solvents under suitable spinning parameters has helped to minimize the quantity of PC during the formation of bead free nanofibers by electrospinning. The ultrafine, uniform, and beadless morphology of the electrospun PC fibers can be utilized for various nanotechnology advancements. POLYM. ENG. SCI., 59:1799–1809, 2019. © 2019 Society of Plastics Engineers
AbstractList Preparing defect free nanofibers with average diameter well below 100 nm is a challenge to researchers by electrospinning technology. In the present contribution, the electrospinning method was utilized to prepare beadless polycarbonate (PC) nanofibers with average diameter 90 nm using comparatively less toxic and suitable solvents in a convenient way. Spinning PC with pure dichloromethane (DCM) and also with 1:1 mixture of DCM and N,N dimethylformamide under the same spinning parameters with varying PC concentration has very much helped to establish the effect of solvents on fiber formation. This study also proved the impact of solution concentration, viscosity, and solution conductivity on the formation of beadless ultrafine PC fibers and subsequently on the bead density and average fiber diameter. The appropriate proportion of solvents under suitable spinning parameters has helped to minimize the quantity of PC during the formation of bead free nanofibers by electrospinning. The ultrafine, uniform, and beadless morphology of the electrospun PC fibers can be utilized for various nanotechnology advancements.
Preparing defect free nanofibers with average diameter well below 100 nm is a challenge to researchers by electrospinning technology. In the present contribution, the electrospinning method was utilized to prepare beadless polycarbonate (PC) nanofibers with average diameter 90 nm using comparatively less toxic and suitable solvents in a convenient way. Spinning PC with pure dichloromethane (DCM) and also with 1:1 mixture of DCM and N,N dimethylformamide under the same spinning parameters with varying PC concentration has very much helped to establish the effect of solvents on fiber formation. This study also proved the impact of solution concentration, viscosity, and solution conductivity on the formation of beadless ultrafine PC fibers and subsequently on the bead density and average fiber diameter. The appropriate proportion of solvents under suitable spinning parameters has helped to minimize the quantity of PC during the formation of bead free nanofibers by electrospinning. The ultrafine, uniform, and beadless morphology of the electrospun PC fibers can be utilized for various nanotechnology advancements. POLYM. ENG. SCI., 59:1799–1809, 2019. © 2019 Society of Plastics Engineers
Preparing defect free nanofibers with average diameter well below 100 nm is a challenge to researchers by electrospinning technology. In the present contribution, the electrospinning method was utilized to prepare beadless polycarbonate (PC) nanofibers with average diameter 90 nm using comparatively less toxic and suitable solvents in a convenient way. Spinning PC with pure dichloromethane (DCM) and also with 1:1 mixture of DCM and N , N dimethylformamide under the same spinning parameters with varying PC concentration has very much helped to establish the effect of solvents on fiber formation. This study also proved the impact of solution concentration, viscosity, and solution conductivity on the formation of beadless ultrafine PC fibers and subsequently on the bead density and average fiber diameter. The appropriate proportion of solvents under suitable spinning parameters has helped to minimize the quantity of PC during the formation of bead free nanofibers by electrospinning. The ultrafine, uniform, and beadless morphology of the electrospun PC fibers can be utilized for various nanotechnology advancements. POLYM. ENG. SCI., 59:1799–1809, 2019. © 2019 Society of Plastics Engineers
Audience Academic
Author Jose E, Tomlal
Mathew, Jomit T.
Thomas, P.C.
Baby, Thomas
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Snippet Preparing defect free nanofibers with average diameter well below 100 nm is a challenge to researchers by electrospinning technology. In the present...
Preparing defect free nanofibers with average diameter well below 100 nm is a challenge to researchers by electrospinning technology. In the present...
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SubjectTerms Composition
Dichloromethane
Dimethylformamide
Electrospinning
Fibers
Materials research
Morphology
Nanofibers
Nanotechnology
Parameters
Personal computers
Polycarbonate resins
Polycarbonates
Polymers
Production processes
Properties
Solvents
Technology
Ultrafines
Title A cost effective and facile approach to prepare beadless polycarbonate nanofibers with ultrafine fiber morphology
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fpen.25180
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