Flexible Electronics Spark PhD Student’s Interest
November 28, 2022 | Binghamton UniversityEstimated reading time: 3 minutes
A Binghamton University doctoral student aims to make innovative technology more accessible through the use of flexible hybrid electronics.
Dylan Richmond, a fourth-year doctoral student in the Materials Science and Engineering Program, conducts research focused on identifying innovative materials and processes to produce reliable, low-cost, low-waste flexible electronic devices. His research group prints and builds circuits onto adaptable plastic materials.
“My favorite part of this work is definitely printing the materials and making something go from a design to an actual circuit and then building upon that and making the whole device,” Richmond said.
He has worked with Binghamton’s Center for Advanced Microelectronics Manufacturing, or CAMM lab, for two-and-a-half years. The laboratory is directed by Mark Poliks, a SUNY distinguished professor of systems science and industrial engineering. Richmond works alongside Poliks on several projects.
“Dylan is a highly motivated individual who is always willing to accept new and challenging responsibilities,” Poliks said. “It has been my privilege to see him develop into an independent professional scientist.”
The CAMM produces devices that are made to withstand high temperatures and large influxes of energy. They can flex onto virtually any curved surface seamlessly, all while adopting the flexibility of a Band-Aid.
In traditional electronics manufacturing, copper or another conductive metal coats the entire plate and excess materials are etched away to leave behind the circuit. However, the CAMM focuses on printing through additive manufacturing. This process reduces waste and is a cost-effective alternative.
“In additive manufacturing, you only print what you need,” Richmond said. “So you print just the design of the circuit.”
While growing up in Owego, Richmond favored the complex nature of math and science over all other elementary subjects. His initial curiosity and appreciation paved the way for his future as an engineer.
During his final year at SUNY Oswego, where he received his bachelor’s degree in physics, Richmond had an opportunity to conduct research at the University of Nebraska-Lincoln on perovskite solar cells. Perovskite is a low-cost, high-energy material that can be used to power electronic devices.
Flexible hybrid electronics combine printed electronic circuits and the flexibility of plastic materials with the efficiency of thinned semiconductor devices to produce a new form of electronics.
“Flexible electronics should be able to adapt to locations and environments where they are needed. The key word here is adapting,” Richmond said. “You want them to not be a nuisance to you. You want to barely notice that they’re on you. So the challenge is making them so thin, so lightweight, so that you barely notice that you’re wearing them and they’re not getting in the way of your daily activities.”
Printed electronics remain novel and fundamental work still needs to be done. As the field of materials science gains more traction, Richmond says that he is less interested in competition and more interested in sharing his knowledge with like-minded peers in the engineering community.
“There’s a lot of people who are interested in this right now, and I just want to contribute to it,” he said.
The influence of the Green Revolution has motivated Richmond to hope for a future in the renewable energy sector. He aspires to combine his knowledge and experience in materials science with his passion for printing and green energy, to create his own renewable energy company in the future.
“Many of our projects involve collaboration with colleagues at major corporations and other universities,” Poliks said. “Dylan has had the opportunity to develop the skills needed to work in a complex team environment. As a result he is now well prepared to work in a highly competitive research and development laboratory.”
Suggested Items
AIM Solder Signs Shinil Fl Ltd. as New Distributor for Korea
05/08/2024 | AIM SolderAIM Solder, a leading global manufacturer of solder assembly materials for the electronics industry, is pleased to announce a new distribution partnership with Shinil Fl Ltd., a prominent supplier of technological solutions in the SMT and semiconductor sectors.
KYZEN’s Adam Klett to Keynote at SMTA Electronics in Harsh Environments Conference
05/07/2024 | KYZEN'KYZEN, the global leader in innovative environmentally friendly cleaning chemistries, announced today that KYZEN’s Director of Science, Adam Klett, PhD will present as a keynote speaker at the SMTA Electronics in Harsh Environments Conference. The event is scheduled to take place May 14-16, 2024 at the Technical University of Denmark in Copenhagen, Denmark.
Altus Equips SSTL with Advanced Cleaning Technology for Electronics
05/07/2024 | Altus GroupAltus Group, a leading supplier of capital equipment for the electronics manufacturing industry, has announced the successful installation of an advanced PCBA cleaning system at Surrey Satellite Technology Limited (SSTL).
GPV's Handover of Refurbished Factory Building
05/07/2024 | GPVOn 6 May 2024, Bjorn Fiskers, MD at GPV Electronics TH in Thailand and his team were handed the keys to our refurbished factory building, adding another 7,000 sqm to our current 15,000 sqm electronics factory. Our electronics factory in Thailand will comprise of a total of 22,000 sqm.
New Yorker, Major League Electronics Sign New Franchised Distribution Agreement
05/06/2024 | New Yorker Electronics Co.New Yorker Electronics, global distributor of electronic components, recently announced a new franchised distribution agreement with Major League Electronics, renowned manufacturer of interconnect products.