Presented by Martin Hedges, Neotech AMT.
This presentation will review the state-of-the-art related to the production of 3D mechatronic systems using Additive Manufacturing (AM) and review developments for scaling the processes through all stages, from one off prototyping to high volume manufacture.
Continue reading “Scalable 3D Printed Electronics – from “Fully Additive” to High Volume.”
presentation by Shweta Argawala, Tenure-Track Assistant Professor, Aarhus University at ONLINE 3D Printing Electronics Conference (21 January 2021, 14:00 – 18:00 CET). REGISTER HERE to attend the conference
Moving forward biomedical devices will require materials and platforms that have Young’s modulus closer to human skin. Direct writing of electronics using functional inks on flexible, stretchable and biocompatible substrates will open doors for innovation in biomedical and health technology. This will tackle the issues of immune reactions and scarring of tissue that hamper the successful use of implantable devices for longer durations.
I will talk about our research on developing novel functional inks for electronic applications that can be directly written on unconventional substrates to enable next-generation devices. The focus is to understand the ink-substrate interactions to print homogeneous and high-resolution circuits.
I will also discuss various application areas, where printed electronics is pushing design innovation for sustainable and biodegradable electronics.
Continue reading “Flexible and Conformable Electronics for Next-Generation Devices”
presentation by Valentina Bertana, Post-Doc researcher, Politecnico di Torino, at ONLINE 3D Printing Electronics Conference (21 January 2021, 14:00 – 18:00 CET). REGISTER HERE to attend the conference
The field of additive manufacturing, which in the last years has gained a lot of interest both from the commercial and the academic world, needs now a boost from the materials side. If materials with special properties as biocompatibility, high mechanical resistance or temperature resistance are already present on the market, materials with special functionalities are still waiting for first release. Especially as regards materials with electrically conductive properties, which would represent a breakthrough for 3D printed electronics. In this perspective, our research group at the department of Applied Science and Technology at Politecnico di Torino is studying novel materials to allow the additive manufacturing of electrical and electronic components. Among different tests, the photocurable resin based on PEDOT:PSS seems to be the most promising one. Some application examples will be also reported.
Continue reading “Electrically conductive polymers for additive manufacturing: current research at PoliTo”
presentation by Claudia Delgado Simao, Teamleader at Eurecat – Technology Centre of Catalonia, at ONLINE 3D Printing Electronics Conference (21 January 2021, 14:00 – 18:00 CET). REGISTER HERE to attend the conference
4D printing is a methodology that makes use of a certain printed material property to change it’s final structure or chemistry along time. Block-copolymers (BCP) are synthetic polymer materials with tuned supramolecular interactions by design, useful to control it’s ability to self-assemble in segregated hydrophillic-hydrophonbic domains and create various functionalised superstructures. Here is presented the methodology for 4DP with BCPs and potential applications in health and energy applications.
Continue reading “Block copolymers: a route for 4D printing”
presentation by Philippe Guaino, Program leader, CRM Group, at ONLINE 3D Printing Electronics Conference (21 January 2021, 14:00 – 18:00 CET). REGISTER HERE to attend the conference
SHAPETRONICS project is a part of the Nano-enabled Printed Electronics demonstration case under the Vanguard Initiative’s Pilot on New Nano-enabled Products.
Continue reading “Shapetronic platform, a demo case of Vanguard Initiative for 3D printing electronics”
presentation by Leo Schranzhofer, Project Manager / Research Scientist, Profactor GmbH, at ONLINE 3D Printing Electronics Conference (21 January 2021, 15:00 – 19:00 CET). REGISTER HERE to attend the conference
This H2020 project, coordinated by Leo Schranzhofer, PROFACTOR, started at 01.10.2020. Notion Systems and PV nanocell are partners in the consortium and will be mentioned in the talk.
Continue reading “Sensor package fabrication via additive manufacturing for automotive sector – An introduction to the TINKER project”
by Stephen Bennington, Q5D Technology Limited at Online 3D Printing Electronics Conference. REGISTER HERE to attend
Q5D’s technology is the fusion of two technologies: laser sintered printed, which makes it possible to print with copper or silver ink and then use a laser to cure and sinter the ink; and innovative 5-axis additive manufacturing which is able to accurately deposit inks or dielectrics.
This makes it possible to print conductive tracks on large curved surfaces or create complex structures with compact 3D circuitry for surface mounted components.
Continue reading “Q5D Adding Electrical Function”
by Julia Veldhuijzen van Zanten, Creative Director, LifeSense Group
How the use of flexible electronics is changing users wearable experience in healthcare.
Continue reading “Flexible electronics in healthcare wearables”
by Corne Rentrop, Holst Centre
The printed electronics community is fastly growing. The latest actions involve high TRL work, aiming towards upscaling and industrialisation. This requires input from the complete value chain. Machine builders, materials and technology suppliers, are working with end-users to meet market specific requirements and allow industrialisation. The talk discusses how this is organised at the Holst Centre, complemented with some end-users examples.
Continue reading “3D Printed Electronics – be part of the ecosystem”
by Henk van Broekhuyzen, Senior Process Development Engineer, DoMicro
A presentation about the ongoing work at DoMicro in the field of inkjet printed electronics. Going beyond conducting lines
Continue reading “DoMicro: inkjet printing 2.5D electronics”