Electrospun nanofiber-based soft electronics

Abstract Electrospun nanofibers have received considerable attention in the field of soft electronics owing to their promising advantages and superior properties in flexibility and/or stretchability, conductivity, and transparency; furthermore, their one-dimensional nanostructure, high surface area,...

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Published inNPG Asia materials Vol. 13; no. 1
Main Authors Wang, Yan, Yokota, Tomoyuki, Someya, Takao
Format Journal Article
LanguageEnglish
Published Tokyo Nature Publishing Group 08.03.2021
Subjects
Assembling
Conduction
Conductors
Electric fields
Electronic devices
Electronics
Electrospinning
Energy harvesting
Energy storage
Flexibility
Flexible components
Morphology
Nanofibers
Nozzles
Properties (attributes)
Semiconductor devices
Sensors
Spinning (materials)
Stretchability
Transistors
Wearable technology
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Abstract Abstract Electrospun nanofibers have received considerable attention in the field of soft electronics owing to their promising advantages and superior properties in flexibility and/or stretchability, conductivity, and transparency; furthermore, their one-dimensional nanostructure, high surface area, and diverse fibrous morphologies are also desirable. Herein, we provide an overview of electrospun nanofiber-based soft electronics. A brief introduction of the unique structure and properties of electrospun nanofiber materials is provided, and assembly strategies for flexible/stretchable electronics are highlighted. We then summarize the latest progress in the design and fabrication of representative flexible/stretchable electronic devices utilizing electrospun nanofibers, such as flexible/stretchable conductors, sensors, energy harvesting and storage devices, and transistors. Finally, a conclusion and several future research directions for electrospun nanofiber-based soft electronics are proposed.
AbstractList Electrospun nanofibers have received considerable attention in the field of soft electronics owing to their promising advantages and superior properties in flexibility and/or stretchability, conductivity, and transparency; furthermore, their one-dimensional nanostructure, high surface area, and diverse fibrous morphologies are also desirable. Herein, we provide an overview of electrospun nanofiber-based soft electronics. A brief introduction of the unique structure and properties of electrospun nanofiber materials is provided, and assembly strategies for flexible/stretchable electronics are highlighted. We then summarize the latest progress in the design and fabrication of representative flexible/stretchable electronic devices utilizing electrospun nanofibers, such as flexible/stretchable conductors, sensors, energy harvesting and storage devices, and transistors. Finally, a conclusion and several future research directions for electrospun nanofiber-based soft electronics are proposed.Flexible electronics: Spinning fibers for wearable technologyThe development of low-cost, efficient, and large-scale methods for fabricating ‘soft’ electronics, conducting materials with improved flexibility and stretchability, increases the range of possible applications. Flexible electronics are useful for foldable displays, healthcare monitoring, artificial skins and implantable bioelectronics. One approach to fabricating these devices is to construct them from conductive nanofibers. Takao Someya from the University of Tokyo and colleagues review recent advances in constructing nanofiber-based soft electronics using a technique called electrospinning. Electrospinning works by drawing a molten material through a nozzle into an electric field to produce strands much finer than a human hair. The authors review the structure and properties of electrospun nanofiber materials and the various strategies for assembling flexible and stretchable electronic devices such as sensors, transistors, and components for energy harvesting and storage.
Abstract Electrospun nanofibers have received considerable attention in the field of soft electronics owing to their promising advantages and superior properties in flexibility and/or stretchability, conductivity, and transparency; furthermore, their one-dimensional nanostructure, high surface area, and diverse fibrous morphologies are also desirable. Herein, we provide an overview of electrospun nanofiber-based soft electronics. A brief introduction of the unique structure and properties of electrospun nanofiber materials is provided, and assembly strategies for flexible/stretchable electronics are highlighted. We then summarize the latest progress in the design and fabrication of representative flexible/stretchable electronic devices utilizing electrospun nanofibers, such as flexible/stretchable conductors, sensors, energy harvesting and storage devices, and transistors. Finally, a conclusion and several future research directions for electrospun nanofiber-based soft electronics are proposed.
ArticleNumber 22
Author Someya, Takao
Yokota, Tomoyuki
Wang, Yan
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  givenname: Takao
  orcidid: 0000-0003-3051-1138
  surname: Someya
  fullname: Someya, Takao
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Snippet Abstract Electrospun nanofibers have received considerable attention in the field of soft electronics owing to their promising advantages and superior...
Electrospun nanofibers have received considerable attention in the field of soft electronics owing to their promising advantages and superior properties in...
SourceID proquest
crossref
SourceType Aggregation Database
SubjectTerms Assembling
Conduction
Conductors
Electric fields
Electronic devices
Electronics
Electrospinning
Energy harvesting
Energy storage
Flexibility
Flexible components
Morphology
Nanofibers
Nozzles
Properties (attributes)
Semiconductor devices
Sensors
Spinning (materials)
Stretchability
Transistors
Wearable technology
Title Electrospun nanofiber-based soft electronics
URI https://www.proquest.com/docview/2497897257/abstract/
Volume 13
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