Large-Scale Direct-Writing of Aligned Nanofibers for Flexible Electronics

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Dong YeYongAn Huang

Abstract

Nanofibers/nanowires usually exhibit exceptionally low flexural rigidities and remarkable tolerance against mechanical bending, showing superior advantages in flexible electronics applications. Electrospinning is regarded as a powerful process for this 1D nanostructure; however, it can only be able to produce chaotic fibers that are incompatible with the well-patterned microstructures in flexible electronics. Electro-hydrodynamic (EHD) direct-writing technology enables large-scale deposition of highly aligned nanofibers in an additive, noncontact, real-time adjustment, and individual control manner on rigid or flexible, planar or curved substrates, making it rather attractive in the fabrication of flexible electronics. In this Review, the ground-breaking research progress in the field of EHD direct-writing technology is summarized, including a brief chronology of EHD direct-writing techniques, basic principles and alignment strategies, and applications in flexible electronics. Finally, future prospects are suggested to advance flexible electronics based on orderly arranged EHD direct-written fibers. This technology overcomes the limitations of the resolution of fabrication and viscosity of ink of conventional inkjet printing, a...Continue Reading

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Oct 26, 2018·Advanced Materials·Jin-Long WangShu-Hong Yu
Mar 6, 2019·Micromachines·Lei GuoZhouping Yin
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Nov 26, 2019·ACS Applied Materials & Interfaces·Pandeng TangShaobing Zhou

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