Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up

Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up Publisher

Yousefi AA¹ ; Mohebbi AR¹ ; Falahdoost Moghadam S¹ ; Poursamar SA² ; Hao L^{3, 4}

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1. Energy Division, Iran Polymer and Petrochemical Institute, P.O. Box 14965-115, Tehran, Iran
2. Biomaterials, Nanotechnology, and Tissue Engineering Group, Advanced Medical Technology Department, Isfahan University of Medical Sciences, P.O. Box 81744-176, Isfahan, Iran
3. Advanced Manufacturing Research Center for Jewelry, Gemological Institute, China University of Geosciences, P.O. Box 430074, Wuhan, China
4. Choc Edge Ltd, Innovation Center, Rennes Drive, P.O. Box EX4 4RN, Exeter, United Kingdom

Source: Solar Energy Published:2019

Abstract

The present work, reports on combination of precise positioning ability of 3D printers with near field electro spinning (NFES) as a low-cost and scalable approach to generate well-aligned, evenly distributed microfiber mask upon flexible substrates coated with metal thin film. Using a combination of annealing thermal treatment and the wet chemical etching of metal layer a flexible transparent electrode is prepared. Using this high speed and large-area printing technique we can overcome the drawbacks of conventional electrospinning such as fiber structural inhomogeneity, random orientation, and non-reproducible results. In addition, the application of more complicated and expensive methods such as lithography or e-beam lithography or nanoimprint lithography can be avoided using this technique. The most important advantage of the reported fabrication method relative to electro-spinning process is the ability to have a special control on the distribution pattern of the electrodes on the surface which can lead to better control over the ratio of conductivity and transparency of the surface. © 2019 International Solar Energy Society

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Style	Citing Format
MLA	Yousefi AA, et al.. "Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up." Solar Energy, vol. 188, no. , 2019, pp. 1111-1117.
APA	Yousefi AA, Mohebbi AR, Falahdoost Moghadam S, Poursamar SA, Hao L (2019). Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up. Solar Energy, 188(), 1111-1117.
Chicago	Yousefi AA, Mohebbi AR, Falahdoost Moghadam S, Poursamar SA, Hao L. "Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up." Solar Energy 188, no. (2019): 1111-1117.
Harvard	Yousefi AA et al. (2019) 'Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up', Solar Energy, 188(), pp. 1111-1117.
Vancouver	Yousefi AA, Mohebbi AR, Falahdoost Moghadam S, Poursamar SA, Hao L. Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up. Solar Energy. 2019;188():1111-1117.
BibTex	@article{ author = {Yousefi AA and Mohebbi AR and Falahdoost Moghadam S and Poursamar SA and Hao L}, title = {Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up}, journal = {Solar Energy}, volume = {188}, number = {}, pages = {1111-1117}, year = {2019} }
RIS	TY - JOUR AU - Yousefi AA AU - Mohebbi AR AU - Falahdoost Moghadam S AU - Poursamar SA AU - Hao L TI - Uniaxially Aligned Microwire Networks for Flexible Transparent Electrodes Using a Novel Electrospinning Set-Up JO - Solar Energy VL - 188 IS - SP - 1111 EP - 1117 PY - 2019 ER -

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