A. Sue Weisler
While exploring a co-op position with RIT’s AMPrint Center, Tobias Hull began to wonder about a new kind of ink.
“I didn’t know printed circuits with metal inks were even possible from an ink jet printer,” said the fifth-year chemical engineering major. He’s spent nearly two years helping develop a copper metal ink solution that could impact mass production of flexible electronics. â€©
Making nano-inks is a complex process that involves turning metal into powder, then using high heat to print them, followed by curing with a laser or 200-amp electron beam to sinter the inks so they form conductive properties.
“This is dangerous stuff, but we are trying to find ways to make a huge leap forward in fabrication,” said Ken Reed, research scientist in the College of Science, and RIT’s AMPrint Center. “Think of it: As Gutenberg was to printing, this will be to manufacturing. It is another revolution. And we want to be on the leading edge of that.”
Reed and Hull are on that cutting edge, and taming copper may be one of the next barriers to fall to consider the metal as a viable and cost-effective alternative for 3D printing.
“If you look at current processes to make nanoparticles, this occurs over the course of several hours. Our process is faster, and requires very little energy input which means we can scale quicker and more cost effectively than anyone else,” said Hull, who intends on starting his own business after graduate school. “We take advantage of some innovative chemistry to stabilize the nanoparticles, because they have a tendency to oxidize and congeal. You don’t see that with silver and gold due to their higher electron reduction potentials. We are using specific chemistries to do that stabilization that no one else is using.”
Their solvent system for the copper ink produced can be used effectively in a printer because it has conventional printing properties—specific viscosity, thickness and surface tension. Copper is significantly lower in price than silver, and can be used for 3D printing wearable devices and RFID tags, for example. Both Reed and Hull understand what it takes to scale up their procedure so that it can be incorporated into widespread manufacturing processes.
“We know what some of the barriers are, and we have found some ways around them,” said Reed. “This is an educational institution, so job No. 1 is to give students a grounded, practical education. I really want to ‘grow’ entrepreneurs. That’s the future. Small business are the engines of growth in this country.”
At RIT’s AMPrint Center
One of the more intriguing 3D-printed objects found in RIT’s AMPrint Center is a professional-size, black guitar, complete with six strings, frets and tuning key. It was printed in the center, and local musician Bob Schneider played it at the 2017 Imagine RIT Festival and at after-event jam sessions at the 2017 Xerox Rochester International Jazz Festival.
Other examples of work underway includes 3D printing of different objects for seasonal displays being done by the center in collaboration with the Genesee Country Museum and RIT’s museum studies program.
AMPrint Center faculty-researchers have skills in developing a variety of medical applications such as custom bone implants and inner ear drug delivery systems, have developed different prototypes of medical devices and pre-surgical planning models intended for use in minimally invasive robotic surgery, in addition to solar cells and wearable devices.
June 26, 2019
RIT hosts REU Graduate Study and Research Symposium June 28
RIT has become a destination for undergraduates from other institutions seeking summer research experience through a nationally funded program that connects students with leading researchers across the country. The Research Experiences for Undergraduate research symposium will be held June 28 in Louise Slaughter Hall.
June 24, 2019
Infrared imaging technology being developed to better detect breast cancer
Faculty and student researchers at RIT, and physicians from the Rochester Regional Health System (RRHS), developed a non-invasive process using infrared imaging to better detect cancerous tumors.
June 18, 2019
Students combine hardware and attacking skills at cybersecurity competition
A team of RIT students from different computing disciplines came together last semester to place third in the 2019 MITRE Collegiate eCTF (embedded capture-the-flag) cybersecurity competition.
June 11, 2019
Grit Happens: Baja SAE Rochester crowns season race champion at RIT and Hogback Hill
The University of Michigan-Ann Arbor took first place overall at the 2019 Baja SAE Rochester challenge, an international student-design competition that challenges students to apply classroom knowledge with real-world applications. RIT placed 10th overall among 100 collegiate race teams that took on a daunting motor cross field and four challenging days of competition.