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Grant for printed electronics could be boon for Clemson, region

An energy-harvesting antenna produced on a press can pick up cell phone signals. Sept. 10, 2015 - Chip Tonkin, Liam O'Hara and Steve Folger with Flexographic press in Harris Smith Building.

An energy-harvesting antenna produced on a press can pick up cell phone signals.


Imagine bandages that detect infections, flexible paper lightbulbs that screw into a light socket or food containers that notify you of an allergen inside. Now, imagine all of this technology is created on a printing press and that Clemson University is on the cusp of helping bring it to mainstream America.
Those technologies and Clemson’s expertise in helping produce them are at the root of a recently announced $75-million grant that the federal government hopes will put the U.S. on the forefront of flexible hybrid electronics manufacturing.
Through an Obama administration initiative, the Nationwide Network for Manufacturing Innovation (NNMI), a five-year grant has been awarded to the FlexTech Alliance, based in San Jose, Calif. The alliance is composed of a consortium of universities and industries, including Clemson. Its charge is to develop advanced technologies and processes to put the U.S. on the cutting edge of next-generation manufacturing.
“We know the science and industry where we can bring real solutions to bear. There are only a couple of universities that have the capability to do this,” said Charles “Chip” Tonkin, director of the College of Business and Behavioral Science’s Sonoco Institute for Packaging Design and Graphics, graphic communications chair and one of the authors of the grant proposal.
Collaborating with Tonkin on the grant application were Steve Foulger of the Center for Optical Materials Science and Engineering Technologies (COMSET) and Liam O’Hara from graphic communications.

“The significance of the Sonoco Institute’s role in this is difficult to overstate,” said Foulger. “Right now, one can’t even imagine the limitless uses for flexible hybrid technologies, and Clemson University is at the forefront of developing some of those uses.”

The Sonoco Institute is a national leader in combining the synergies of packaging design and graphic communications.
“Traditionally, people think of printing presses producing eye-catching wrapping for consumer goods,” said O’Hara. “But beyond color, we can also print conductive and functional inks to create electronic devices inexpensively.”
One of the keys to Clemson and the institute’s role in this grant was the collaboration of the graphic communications, materials science and packaging science programs. The expertise in print manufacturing and materials science existed on campus; it just needed to be consolidated for the synergy to occur.
That happened when the College of Business and Behavioral Science, the College of Engineering and Science, COMSET and the University’s vice president of research helped fund a lab at the Sonoco Institute for these disciplines to be united.
Tonkin and his associates are quick to point out that the NNMI effort to get these technologies to a commercial-use level is in its infancy. “The initial funding is the tip of the iceberg on what it will take to mass produce these electronics for mainstream America,” Tonkin added. “It will take additional commitments from all those involved to realize how far this technology can take us.”

In These Hills

International teachers learn and teach

Richard Balikoowa from Uganda was one of 16 teachers from seven different countries who studied on campus and taught in local schools from January through May. They are part of the International Leaders in Education Program, a professional exchange program funded by a subgrant from the International Research and Exchanges Board (IREX), which is funded by the U.S. Department of State Bureau of Educational and Cultural Affairs. The teachers completed an on-campus academic program with some of Clemson’s School of Education faculty, and then interned with a partner teacher at Riverside Middle, Liberty Middle and Seneca High.
As part of this program, which is in its sixth year at Clemson, the teachers engage in formal and informal cultural activities in which they learn about American culture and share about their own. Teacher Fellows go through a yearlong selection process; they are nominated by their own country, approved through that country’s American embassy and local Fulbright commission, and screened through the U.S. State Department and IREX. Clemson is one of four universities selected to host the group.

Clemson team selected for Solar Decathlon

Clemson's Solar Decathlon team

Clemson’s Solar Decathlon team


The U.S. Department of Energy selected a Clemson team to compete in the Solar Decathlon 2015. Clemson is one of 20 colleges and universities across the country and around the world that will now begin the nearly two-year process of building solar-powered houses that are affordable, innovative and highly energy efficient.
“We are honored and excited to participate in the Solar Decathlon 2015,” said Akel Kahera, associate dean for Clemson’s College of Architecture, Arts and Humanities. “This competition offers our students a one-of-a-kind learning and training experience that helps students excel once they enter the clean energy industry.”
Over the coming months, the Solar Decathlon teams will design, construct and test their houses before reassembling them at the Solar Decathlon 2015 competition site in Irvine, Calif. As part of the Solar Decathlon, teams compete in 10 different contests, ranging from architecture and engineering to home appliance performance, while gaining valuable hands-on experience.
In fall 2015, the student teams will showcase their solar-powered houses at the competition site, providing free public tours of renewable energy systems and energy-efficient technologies, products and appliances that today are helping homeowners nationwide save money by saving energy. The solar-powered houses will represent a diverse range of design approaches; building technologies; target markets; and geographic locations, climates and regions, including urban, suburban and rural settings.
The Solar Decathlon helps demonstrate how energy-efficient and renewable energy technologies and design save money and energy while protecting local communities and boosting economic growth.

Clemson partners in national hub for genetics research

President Clements presents Self Regional’s Jim Pfeiffer with a bowl crafted from a cedar tree at Fort Hill, the historic home of John C. Calhoun and Thomas G. Clemson.

President Clements presents Self Regional’s Jim Pfeiffer with a bowl crafted from a cedar tree at Fort Hill, the historic home of John C.  Calhoun and Thomas G. Clemson.


In February, Clemson, the Greenwood Genetic Center and Self Regional Healthcare announced a new partnership that will establish formal collaboration among genetic researchers and Clemson faculty. Self Regional Healthcare will support Clemson’s Center for Human Genetics with a gift of $5.6 million over three years. The gift consists of an initial contribution of $2 million for the center’s facilities and a subsequent contribution of $3.6 million to support research in genetics and human diagnostics at the facility located on the Greenwood Genetic Center campus.
“Today’s announcement will create a new pipeline for genetic research,” said John Pillman, chair of the Self Regional board of trustees. “The collaboration of these three partners will ultimately connect genetic therapeutics research to patients.”
Steve Skinner, director of the Greenwood Genetic Center, said such collaborations are crucial in turning research advances into clinically available therapies for patients, not only in Greenwood and across South Carolina, but globally. “This collaboration is a major step forward for patients as we combine the resources and strengths of each institution: Self’s commitment to patient care, Clemson’s expertise in basic scientific research and our experience with genetic disorders and treatment.”
Self Regional and the Genetic Center have had an affiliation agreement since 1975 with the Genetic Center’s clinical faculty serving as the Department of Medical Genetics for Self Regional.
[pullquote align=’right’ font=’chunk’ color=’#685C53′]President Clements said the announcement brings us a step closer to moving basic discoveries in human genetics from a research environment to a clinical setting, where they can be used to diagnose and treat real human disorders.[/pullquote] “Clemson is proud to be part of this important collaborative effort, and we’re grateful to Self Regional Healthcare for its support of our research efforts at the Greenwood Genetic Center.”
The center will address research and clinical opportunities in human diagnostics and epigenetic therapeutics advancing personalized medicine for intellectual and developmental disabilities, autism, cancer, diabetes, heart disease and disorders of the immune and nervous systems. Specific research will include molecular diagnostics and therapeutics, bioinformatics and computational/systems biology.
Self Regional Healthcare, as a research and lead health care partner, will support hospital-based clinical trials and collaborate in designated research activities. This marks Clemson’s third significant development at the Greenwood Genetic Center. In June 2013, Clemson announced it would expand its genetics programs, create an internationally competitive research and development team, and expand research capabilities at the Greenwood Genetic Center’s J.C. Self Institute through the Center for Human Genetics, a 17,000-square-foot research and education center in human genetics. And in November, Clemson established the Self Family Foundation Endowed Chair in Human Genetics, jointly funded by the Self Family Foundation and the state of South Carolina.

Ballato selected for class of ’39 award

John Ballato 2013 recipient of the Class of ’39 Award.

John Ballato 2013 recipient of the Class of ’39 Award.


With the increasing popularity of Sci-Fi movies, it’s no surprise that lasers conjure up images of futuristic adventures in outer space. But materials science and engineering professor John Ballato’s work in fiber optics isn’t happening in a galaxy far, far away — it’s all happening right here in Clemson.
The 2013 recipient of the Class of ’39 Award, Ballato is director of the Center for Optical Materials Science and Engineering Technologies (COMSET). His research in glass and specialty fiber has made seemingly fictitious concepts a reality. “It sounds very Star Trek-ish, but the military has lasers deployed around the world to shoot down a variety of threats,” Ballato said, “everything from missiles to RPGs.”
Although Ballato and his team don’t make the lasers that are sent to the battlefield, they do help develop the fiber optics that go inside them. The program’s success in the field of specialty fiber has enabled Ballato to work closely with the U.S. Department of Defense Joint Technology Office, which has invested more than $10 million in COMSET over the past eight years.
Ballato moved to Clemson in 1997 and worked with other researchers to start an optics program, no easy task for junior faculty members. “Doing optical fiber research is extremely expensive,” he said. “The equipment that you need is big, complex and dangerous.”
But a confluence of events fell into the team’s favor. The dot-com boom turned into the dot-com bust in the late 1990s, leaving a glut of fiber optic cable that no one wanted. But Ballato and his team knew there was more research to be done. They quickly found an underserved sector, a “sandbox” where no one else was playing, he said. “The Department of Defense was clamoring for specialty fiber,” he said. “They couldn’t get any because it was all going to communications.”
It was a perfect fit. The research had to be done onshore for security reasons, Ballato said, and the Department of Defense was a client with deep pockets. “There was nobody else talking to them,” he said. “Everybody else had moved on http://creative.clemson.edu/clemsonworld/2014/05/hills/to other things, and we rode that wave in fiber for 10 years, through two wars and a staggering amount of investment.”
Ballato said COMSET partners with companies to pitch programs to the Department of Defense. [pullquote align=’right’ font=’chunk’ color=’#685C53′]“Clemson is actually pretty unique nationally in the sense that we go from ‘dirt to shirt,’” he said.[/pullquote] “We model it, we design it. We study new materials. We make the glasses. We draw the fiber. We build the lasers for them at a prototypic level. That’s extremely valuable for our partners. It’s a one-stop shop for them.”
Ballato served as the interim vice president for research and associate vice president for research and economic development, where he championed Clemson’s advanced materials related research and economic development. His achievements speak volumes, but this award may be the most meaningful. Ballato was chosen by his peers to represent the highest achievement of service to the University, the student body and the larger community.
As the 2013 winner of the Class of ‘39 Award, Ballato’s name will be engraved in stone next to 24 past winners. The Class of 1939 established the Award for Excellence in 1989 to commemorate the 50th anniversary of the class and to recognize and inspire faculty service above and beyond expectations.
In March, President Clements announced that Ballato would take on additional duties as the University’s vice president for economic development.

Honoring Sacrifice


Clemson’s Air Force ROTC detachment gathered in March to send Lieutenant Colonel Tom von Kaenel on a 120-day bicycle journey to Juneau, Alaska, to raise awareness of the sacrifices of service members, veterans and their families since 9-11. Kaenel is the founder of Sea2Sea, a military nonprofit that organizes bicycling events across the country, partnering with other nonprofits and local organizations. During the memorial service held that day, Clemson cadets read the names of South Carolinians who lost their lives in Iraq and Afghanistan.

Nanoparticles, Big Ideas

Apparao (Raja) Rao

Apparao (Raja) Rao


Although these images can easily be mistaken for abstract art, they are indeed high resolution transmission electron microscope images of unique nanostructures explored by R.A. Bowen Professor of Physics Apparao (RAJA) Rao and his team at the Clemson Nanomaterials Center.
The honeycomb-like structure (in purple) with rows of carbon atoms arranged in a hexagonal fashion forms the basis of a graphene layer — the quantum building block for buckyballs, carbon nanotubes and graphite. Supported by a $1.2 million grant from the National Science Foundation, Rao and his team have begun to chip away at reinventing energy storage by developing a cost-effective and scalable way to produce carbon nanomaterials. While energy is one of the focus areas, Rao’s team is also working on understanding the fundamental implications of nanomaterials on the physiological response.
Shown in the image (orange) is a silver nanoparticle coated with serum albumin, whose modified structure could be used to generate nanoparticles that can deliver useful drugs without being engulfed by the immune system.