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Posted on August 1, 2022 by  & 
External Company Press Release

Intertronics Supports 3D Printed Bioelectronics Research

Intertronics Supports 3D Printed Bioelectronics Research
When the Department of Automatic Control and Systems Engineering (ACSE) at The University of Sheffield was looking for a way to accurately 3D print bioelectronic sensors, it reached out to Intertronics for support. The company supplied mixing and dispensing equipment to improve the consistency and quality of the mix, achieve better printing definition, and reduce blockages in the nozzle of the 3D printer.
 
To improve the way recovery from injury and the progression of neurological/musculoskeletal conditions are monitored, the ACSE team is developing a diagnostic glove that includes several flexible bioelectronic sensors. The sensors are formed from elastomers mixed with various conductive nano or micro particle compounds, like graphite, platinum, and silver, which are 3D printed onto the glove's material.
 
To dispense tiny amounts of material, the ACSE team uses an extrusion-based 3D printer. However, during dispensing, particle aggregates were forming and particle distribution was being altered, causing material to clog in the nozzle. The ACSE team contacted Intertronics, who recommended Preci-Tip™ Precision Dispensing Tips. Their design has a streamlined conical fluid path that delivers smoother, higher fluid flow rates and lower dispense back pressure compared with most standard dispensing tips, resulting in improved accuracy and much reduced clogging. Their industry standard Luer Lock fitting meant they were compatible with the University's existing equipment. For further information see the IDTechEx report on 3D Printing Hardware 2022-2032: Technology and Market Outlook.
 
 
"The customer reported that the Preci-Tips worked well on their highly viscous silicones, they offered good flow, good fluid break off, and stopped agglomerations," said Paul Whitehead, Strategic Accounts Manager at Intertronics. "The results were better definition and a more reliable system, without blockages during the 3D printing process. However, further discussion revealed that they had challenges with the mixing of the filled polydimethylsiloxane (PDMS) mixtures."
 
The process involved mixing nanoparticles into the very viscous PDMS to produce a graphite composite. The ACSE team were adding an organic solvent to reduce the viscosity of the mixture and therefore aid mixing. The solvent had to be removed post printing, and this required testing to confirm there was no remaining contaminating solvent. There were health and safety considerations for the team in using this approach.
 
Intertronics then suggested the team consider trialling a THINKY Mixer to achieve better mixing success. These industrial non-contact planetary centrifugal mixing machines use both rotation and revolution of material in a container under an acceleration of 400 G to achieve consistent mixing results. In a THINKY Mixer, even materials of very high viscosity, such as those used by the ACSE, can be mixed in a matter of minutes. The THINKY Mixer enables the team to document the exact time and speed of the mixing, which makes the process parameters trackable.
 
 
"The THINKY Mixer is a huge improvement on our previous process and means we can achieve consistent outcomes more quickly," said Tom Paterson, Postdoctoral Research Associate at The University of Sheffield. "We've removed the need for solvents, which removes a step from the process, improves health and safety, and removes the regulatory requirement to prove this compound has been removed. The mix quality is extremely good, the mixer doesn't introduce air into the mix, and we're making a substantial time saving."
 
Flexible wearable electronics have a great deal of potential for future applications and the ACSE team is currently working with clinicians on translational projects in human health monitoring. For more information on materials or equipment for electronics production, visit the Intertronics website.
 
About Intertronics:
Intertronics supplies adhesives, coatings, sealants and equipment to customers with high technology, high performance assembly applications, including manufacturers in electronics, medical devices, plastics, optical, automotive, energy, defence and aerospace. We have a custom-designed Technology Centre for hands-on demonstrations and trials. www: https://www.intertronics.co.uk
 
Source and top image: Intertronics
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