A Patterned Graphene/ZnO UV Sensor Driven by Integrated Asymmetric Micro‐Supercapacitors on a Liquid Metal Patterned Foldable Paper

A Patterned Graphene/ZnO UV Sensor Driven by Integrated Asymmetric Micro‐Supercapacitors on a Liquid Metal Patterned Foldable Paper

A foldable array of patterned graphene/ZnO nanoparticle UV sensor and asymmetric micro‐supercapacitors (AMSCs) integrated on a paper substrate with patterned liquid metal interconnections is reported. The resistor type UV sensor based on graphene/ZnO nanoparticles is patterned to be driven by the st...

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Veröffentlicht in:Advanced functional materials 2017-08, Vol.27 (30), p.n/a
Hauptverfasser: Yun, Junyeong, Lim, Yein, Lee, Hanchan, Lee, Geumbee, Park, Heun, Hong, Soo Yeong, Jin, Sang Woo, Lee, Yong Hui, Lee, Sang‐Soo, Ha, Jeong Sook
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Sprache:eng
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asymmetric micro‐supercapacitors
Casting
Computer storage devices
Energy storage
foldable paper substrates
Graphene
graphene/ZnO nanoparticles
Internal energy
liquid–metal interconnection
Manganese dioxide
Materials science
Multi wall carbon nanotubes
Nanomaterials
Nanoparticles
Nanotubes
Polymethyl methacrylate
Portable equipment
Propylene
Sensors
Substrates
Supercapacitors
UV sensors
Vanadium pentoxide
Zinc oxide
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container_issue 30
container_start_page
container_title Advanced functional materials
container_volume 27
creator Yun, Junyeong
Lim, Yein
Lee, Hanchan
Lee, Geumbee
Park, Heun
Hong, Soo Yeong
Jin, Sang Woo
Lee, Yong Hui
Lee, Sang‐Soo
Ha, Jeong Sook
description A foldable array of patterned graphene/ZnO nanoparticle UV sensor and asymmetric micro‐supercapacitors (AMSCs) integrated on a paper substrate with patterned liquid metal interconnections is reported. The resistor type UV sensor based on graphene/ZnO nanoparticles is patterned to be driven by the stored energy of the integrated AMSCs. The AMSC consists of MnO2 nanoball deposited multiwalled carbon nanotubes (MWNTs) and V2O5 wrapped MWNTs as positive and negative electrodes, respectively. As an electrolyte, propylene carbonate‐poly(methyl methacrylate)‐LiClO4, an organic solvent‐based gel, is used. The UV sensor and AMSCs can be easily integrated on a liquid metal, Galinstan, patterned, waterproof mineral paper and show a mechanically stable UV sensing, regardless of repetitive folding cycles. This work demonstrates a novel foldable nanomaterial based sensor system driven by integrated energy storage devices, applicable to future wearable and portable electronics. A patterned graphene/ZnO UV sensor driven by integrated asymmetric micro‐supercapacitors (AMSCs) on a liquid metal patterned foldable substrate is demonstrated. With the stored energy of the AMSCs, the integrated UV sensor is operated stable for 1500 s under deformations of folding.
doi_str_mv 10.1002/adfm.201700135
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source Wiley Online Library Journals Frontfile Complete
subjects asymmetric micro‐supercapacitors
Casting
Computer storage devices
Energy storage
foldable paper substrates
Graphene
graphene/ZnO nanoparticles
Internal energy
liquid–metal interconnection
Manganese dioxide
Materials science
Multi wall carbon nanotubes
Nanomaterials
Nanoparticles
Nanotubes
Polymethyl methacrylate
Portable equipment
Propylene
Sensors
Substrates
Supercapacitors
UV sensors
Vanadium pentoxide
Zinc oxide
title A Patterned Graphene/ZnO UV Sensor Driven by Integrated Asymmetric Micro‐Supercapacitors on a Liquid Metal Patterned Foldable Paper
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