2020
DOI: 10.3390/bios10010006
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High-Yield Production of Aqueous Graphene for Electrohydrodynamic Drop-on-Demand Printing of Biocompatible Conductive Patterns

Abstract: Presented here is a scalable and aqueous phase exfoliation of graphite to high yield and quality of few layer graphene (FLG) using Bovine Serum Albomine (BSA) and wet ball milling. The produced graphene ink is tailored for printable and flexible electronics, having shown promising results in terms of electrical conductivity and temporal stability. Shear force generated by steel balls which resulted in 2–3 layer defect-free graphene platelets with an average size of hundreds of nm, and with a concentration of a… Show more

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Cited by 33 publications
(21 citation statements)
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“…In this study, the pivotal role played by both the printing mechanism and the resulting structural and functional properties of the biomolecules involved on the final performance of the biosensor was demonstrated [33]. Asli et al [34] presented a study where graphene was used as ink for a "drop-on-demand" 3D inkjet printer. This technology was employed in order to overcome the print instability issue relying on a time-saving process.…”
Section: Materials Extrusion For Biophysical Studies Electrochemical ...mentioning
confidence: 88%
See 1 more Smart Citation
“…In this study, the pivotal role played by both the printing mechanism and the resulting structural and functional properties of the biomolecules involved on the final performance of the biosensor was demonstrated [33]. Asli et al [34] presented a study where graphene was used as ink for a "drop-on-demand" 3D inkjet printer. This technology was employed in order to overcome the print instability issue relying on a time-saving process.…”
Section: Materials Extrusion For Biophysical Studies Electrochemical ...mentioning
confidence: 88%
“…Intriguingly, 3D geometry can add an unknown physiologically relevant aspect compared with 2D [74]. Mainly in the biosensing field, but not only, the inkjet 3D printing techniques such as direct ink writing (DIW) and drop-on-demand (DOD), have also been widely employed for the fabrication of biosensors due to their advantages of contactless printing, reduction in waste, and rapid deposition [25,33,34,39]. Inkjet printing technology has been used by Mojena-Medina et al [25] to fabricate interdigitated-electrode sensors (IDEs) to monitor epithelial cell cultures.…”
Section: Materials Extrusion For Biomedical Applicationsmentioning
confidence: 99%
“…The sensing enhance ment is due to enlarged surface exposure of the porous wire structures. Other nanoparticles aligned by EHD include the stainless steel particles and rods, [230] micronano aluminum particles, [231] quantum dots, [232] Janus particles, [233] CNTs, [234] graphene, [235] graphene oxide (GO). [236] The EHD method showed the ability to assemble nano particles with regular patterns and the control of polymer mor phologies.…”
Section: Ehd Jet-induced Alignmentmentioning
confidence: 99%
“…Despite being the thinnest material present, it has a Young's modulus of approximately 1 TPa making it stronger than steel [7,8]. A variety of fields including biology [9][10][11] and medicine have begun tapping into the immense potential that graphene presents. For example, He et al [12] used graphene as a surface-enhanced Raman scattering (SERS) substrate in order to carry out multiplex DNA detection.…”
Section: Introductionmentioning
confidence: 99%