News Archive 2014

Picasolar Raises $1.2 Million in Equity Investments

Reference: University of Arkansas Newswire November 21, 2014

FAYETTEVILLE, Ark. – Picasolar Inc., a solar start-up company affiliated with the University of Arkansas, recently raised $1.2 million in equity investments.

The investment funds came on top of funding through a prestigious SunShot Award by the U.S. Department of Energy.

“These investments are crucial toward helping Picasolar grow as a company,” said Douglas Hutchings, Picasolar’s chief executive officer. “Some of these investors had never invested in an Arkansas company. Our patent-pending technology could save an average-sized solar panel manufacturer $120 million annually, making the panels, and solar energy, more affordable for consumers.”

Hutchings said the $1.2 million was raised through $600,000 from private investors that was matched dollar-for-dollar by the Arkansas Development Finance Authority through the authority’s co-investment fund.

Gene Eagle, president of the Arkansas Development Finance Authority, said, “We are excited to be able to partner with a company like Picasolar. This company has a strong team with experience and skills to move the company forward. Emerging businesses like Picasolar are significant creators of new, high-paying jobs in Arkansas.”

Separate from the equity investments, the U.S. Department of Energy awarded a SunShot Tier 1 Incubator Award to Picasolar last month. The $800,000 award through the U.S. Department of Energy SunShot Initiative will be matched by $200,000 from Picasolar, bringing the one-year project to $1 million.

Picasolar’s sister company, Silicon Solar Solutions received a SunShot incubator award a year ago targeted for early-stage assistance to help startup companies commercialize their inventions while encouraging private sector investment.

The new award for Picasolar is intended to accelerate the transition of early stage functional prototypes to manufacturing and a commercially relevant prototype made in the lab.

Both Picasolar and Silicon Solar Solutions are Genesis Technology Incubator clients at the Arkansas Research and Technology Park at the University of Arkansas. Hutchings founded Silicon Solar Solutions in 2008 while a graduate student at the university.

In January 2013, the company submitted an application for a full patent on a self-aligned hydrogenated selective emitter for N-type solar cells. The emitter, invented by Seth Shumate, a doctoral candidate at the University of Arkansas and chief technology officer for Picasolar, could improve the efficiency of solar cells by 15 percent. If successful, the emitter represents the single largest technology leap in solar power in 40 years, Hutchings said.

Picasolar won more than $300,000 in cash while competing for the University of Arkansas at graduate business plan competitions in 2013, including $250,000 for winning the MIT NSTAR Clean Energy Prize.

Hutchings earned a doctorate in microelectronics-photonics at the University of Arkansas in 2010. Shumate is a doctoral candidate in the microelectronics-photonics program, offered by the College of Engineering and J. William Fulbright College of Arts and Sciences.

U.S. Department of Energy Awards Picasolar $800,000 to Increase Efficiency of Solar Cells

Reference: University of Arkansas Newswire October 23, 2014

FAYETTEVILLE, Ark. – The U.S. Department of Energy has awarded a SunShot Tier 1 Incubator Award to Picasolar Inc., a start-up company affiliated with the University of Arkansas and founded by a graduate of the university.

The $800,000 award through the U.S. Department of Energy SunShot Initiative will be matched with $200,000 from Picasolar, bringing the one-year project to $1 million. The award is the result of the company’s patent-pending process to increase the efficiency of solar cells and could ultimately lead to new high-tech manufacturing jobs in Northwest Arkansas.

Douglas Hutchings, Picasolar’s chief executive officer, said the SunShot awards are the most prestigious and competitive grants a solar start-up company can receive.

“We are very pleased to receive the continuation of funding from the SunShot Incubator Program,” Hutchings said. “The goal of the U.S. Department of Energy SunShot Initiative is to get solar energy to 6 cents per kilowatt hour by 2020 and in doing so making solar one of the most cost-effective forms of electricity generation on the planet. It is exciting to think that a technology invented in Fayetteville by U of A graduates can play a big role in this process.”

Picasolar’s grant was one of 20 to small businesses nationwide totaling more than $14 million that were announced on Wednesday, Oct. 22, by Energy Department Secretary Ernest Moniz. 

“As U.S. solar installation increases and the cost of solar electricity continues to decline, solar energy is becoming an increasingly affordable clean energy option for more American families and businesses,” Moniz said. “The projects announced today will help the U.S. solar energy industry continue to grow, ensuring America can capitalize on its vast renewable energy sources, cut carbon pollution, and continue to lead in the world in clean energy innovation.”

One year ago, Silicon Solar Solutions, Picasolar’s sister company, received $500,000 for a SunShot Tier 0 Incubator Award, which is targeted for early-stage assistance to help startup companies commercialize their inventions while encouraging private sector investment. The new award is intended to accelerate the transition of early stage functional prototypes to manufacturing and commercially relevant prototype made in the lab.

Both Picasolar and Silicon Solar Solutions are Genesis Technology Incubator clients at the Arkansas Research and Technology Park. Picasolar will continue to work with its research partners at the Georgia Institute of Technology and Roth & Rau, a German solar energy company, and has added China-based Yingli Solar, the world’s largest manufacturer of solar panels, as a partner on the new award.

“The SunShot program is phenomenal,” Hutchings said. “In addition to the financial support, we get to work with world-class scientists at Department of Energy national labs for third-party validation and technical expertise. This award is a huge milestone for Picasolar.”

Hutchings founded Silicon Solar Solutions in 2008 while a graduate student at the University of Arkansas. In January 2013, the company submitted an application for a full patent on a self-aligned hydrogenated selective emitter for N-type solar cells. The emitter, invented by Seth Shumate, a doctoral candidate at the U of A and chief technology officer for Picasolar, could improve the efficiency of solar cells by 15 percent and could save an average-sized solar panel manufacturer $120 million annually, making the panels, and solar energy, more affordable for consumers, Hutchings said.

If successful, the emitter represents the single largest technology leap in solar power in 40 years, according to Hutchings.

Hutchings earned a doctorate in microelectronics-photonics at the University of Arkansas in 2010. Shumate is a doctoral candidate in the microelectronics-photonics program, offered by the College of Engineering and J. William Fulbright College of Arts and Sciences.

Picasolar Ties for First at SXSW Eco Startup Showcase

Reference: University of Arkansas Newswire October 13, 2014

FAYETTEVILLE, Ark. – Picasolar, a solar startup company affiliated with the University of Arkansas, finished in a first-place tie at the SXSW Eco Startup Showcase, a fast-paced pitch competition featuring top emerging firms from around the world.

The third annual Startup Showcase spotlighted innovative early-stage companies in the areas of “Greentech,” “Cleanweb” and “Social Impact.” Picasolar tied for the win in the Greentech category with Pax Pure of San Rafael, Calif. Eight companies per category competed at the conference, which ended Oct. 8 in Austin, Texas, in front of a live audience and panel of judges made up of top investors.

Picasolar’s technology, a hydrogen super emitter invented by chief technology officer Seth Shumate — a doctoral student in the microelectronics-photonics graduate program at the University of Arkansas — could improve the efficiency of solar cells by 15 percent. It is a key innovation in the fastest-growing segment of the fastest-growing energy source in the world.Picasolar was only Arkansas company in the Startup Showcase, which featured 32 companies. Each company delivered a four-minute pitch, followed by four minutes of questions and answers with a panel of judges. The judges included representatives from Target, Shell Technology Ventures, the Whole Planet Foundation, New Enterprise Associates and Sprint.The Greentech category included startups that offered a diverse range of products and services that fulfill a market demand while significantly reducing or eliminating environmental impact.

Although there was no cash prize, the “exposure was fantastic,” said Douglas Hutchings, Picasolar’s chief executive officer.

“The list of people who attend the Startup Showcase at SXSW Eco is pretty impressive and I think we made the state of Arkansas look good,” Hutchings said. “We had some great follow-up conversations with decision-makers across the energy value chain. The Startup Showcase provided a great platform for us to share our venture.”

Picasolar won more than $300,000 in cash while competing for the U of A at graduate business plan competitions in 2013, including $250,000 for winning the MIT NSTAR Clean Energy Prize. The team incorporated and is now located at the Genesis Technology Incubator at the Arkansas Research and Technology Park in Fayetteville. 

SXSW Eco’s 2014 Startup Central programming was produced in conjunction with Austin Energy and the Austin Technology Incubator, part of the IC2 Institute at the University of Texas at Austin.

Picasolar Selected as Finalist at SXSW Eco Startup Showcase

Reference: University of Arkansas Newswire August 28, 2014

FAYETTEVILLE, Ark. — Picasolar, a solar startup company affiliated with the University of Arkansas, has been selected to compete in the SXSW Eco Startup Showcase, a fast-paced pitch competition featuring top emerging firms from around the world.

The Startup Showcase, now in its fourth year, is a rapid-fire pitch competition spotlighting innovative early-stage companies in the areas of “greentech,” “cleanweb” and “social impact.” Eight companies per category will compete at the conference, scheduled for Oct. 6-8 in Austin, Texas, in front of a live audience and panel of judges made up of top investors.

Picasolar will compete in the greentech category, which includes startups offering a diverse range of products and services that fulfill a market demand while significantly reducing or eliminating environmental impact. Picasolar is the only Arkansas company in the overall competition; the greentech category includes companies from California, Illinois, New York and Texas.

Each company presents a four-minute pitch and then engages in a four-minute question-and-answer session with the judges, who will determine the winner. In the past two years, participating companies have gone on to raise more than $27 million in funding and acquire global brands as clients.

Picasolar’s technology, a hydrogen selective emitter invented by chief technology officer Seth Shumate — a doctoral student in the microelectronics-photonics graduate program at the University of Arkansas — could improve the efficiency of solar cells by 15 percent. It is a key innovation in the fastest-growing segment of the fastest-growing energy source in the world.

Picasolar won more than $300,000 in cash while competing for the University of Arkansas at graduate business plan competitions in 2013, including $250,000 for winning the MIT NSTAR Clean Energy Prize. The team incorporated and is now located at the Genesis Technology Incubator at the Arkansas Research and Technology Park in Fayetteville. 

“The Startup Showcase at SXSW Eco provides a great platform for us to share our venture,” said Douglas Hutchings, Picasolar’s chief executive officer. “We have made tremendous progress over the past year and we are excited to be one of the few companies selected to compete. I can’t think of a better place to share our recent breakthroughs than at this event.”

Carolyn Harrold, SXSW Eco’s startup programming producer, said, ““Each year, we are honored to spotlight the companies that are offering the most innovative new solutions to our social and environmental challenges. This year’s finalists were selected out of our most competitive applicant pool yet, and we look forward to the excitement they will bring to the stage and the change they will drive in the coming year.”

Vickers Announces Retirement as Director of Microelectronics-Photonics Program

Reference: University of Arkansas Newswire August 27, 2014

FAYETTEVILLE, Ark. – Ken Vickers, director of the interdisciplinary microelectronics-photonics graduate program, has announced his retirement, effective Aug. 29. Vickers developed the program, better known as microEP, and has been the sole director in the program’s 16-year history.

Vickers completed his undergraduate and graduate degrees in physics at the University of Arkansas in 1976 and 1978, but he did not return to the campus in a faculty role until 1998. He spent the first 20 years of his professional life at Texas Instruments and spent his last eight years at the company as the engineering manager of the integrated circuit factory in Sherman, Texas. Though he never had any intention of becoming an academic, leaving TI to create the microEP program at the U of A was the chance of a lifetime.

“I had an interest in education coming out in traditional ways, but I never thought of joining a university. However, I was given the opportunity to create a graduate program I would have loved to have had available when I finished my bachelor’s in physics.” he said.

Vickers has had tremendous success in his careers at both TI and the U of A. He has had more than 32 patents issued, won more than three million dollars in grant funding and grown the microEP program from 11 enrolled students to 65 enrolled students.

He is unsure of how he will take to retirement. He thinks his retirement will play out similar to a scenario between Wile E. Coyote and the Road Runner from Looney Tunes. In a typical episode, Coyote chases after Road Runner but ultimately goes over a cliff, while Road Runner stops just short.

“I don’t know if I’m the Coyote or the Road Runner,” Vickers said. “I was able to walk away from one career without worrying; we’ll see if I can do the same with this career.”

Rick Wise, who has served as chair of the Industrial Advisory Committee for the microEP program for more than 10 years, was recently hired to fill the director position. Vickers acknowledged that his transition into retirement is made easier because of Wise’s credentials.

“It helps that the person we hired is someone I have tremendous respect for and who knows a lot about the program. I am handing off to someone I have a great deal of confidence in,” he said.

 Vickers’ thoroughly enjoyed his time at the University of Arkansas but is looking forward to spending more time with his family post-retirement.

“It’s been a great ride. I feel I’ve been given opportunities from a lot of people and have been able to work with great faculty, great staff and great students,” he said. “Now, I’m going to be taking care of a 30-year honey-do list.”

Texas Instruments Fellow Named Director of Microelectronics-Photonics Graduate Program

Reference: University of Arkansas Newswire August 15, 2014

FAYETTEVILLE, Ark. – Rick Wise has been named director of the University of Arkansas’ interdisciplinary microelectronics-photonics program, better known as microEP.

Wise comes to the university after a more than 30-year career at Texas Instruments.

“After a nationwide search, I am thrilled that Dr. Rick Wise has accepted our offer to be the next leader of the microEP program,” said Kim LaScola Needy, dean of the Graduate School and International Education. “His vision and energy are eagerly anticipated, and I predict that he will continue moving this program successfully forward.”

Wise will be only the second director in the program’s 16-year history. The program, which has an enrollment of 65 graduate students, was founded and directed until this year by Ken Vickers, who will retire at the end of August.

Wise said he is pleased with what Vickers has created and plans to follow his example. Additionally, he hopes to use his ties to industry to help bolster the program.

“The program is in good shape. I want to maintain the good things that have been established and are working well, and I will also try to utilize my connections with industry while they are still warm,” he said.

The microelectronics-photonics program prepares students for careers involving micro- and nanomaterials, processing, and devices applied in areas such as photonics, microelectronics and biochemical analysis. In addition to the graduate program, an undergraduate minor is offered.

Wise is hopeful that in taking on his new role he will be able to aid the University of Arkansas in realizing its goal of becoming a top 50 public research university.

“Achieving the goal of top 50 is largely gauged on graduate programs. I want to do everything I can to help reach that goal,” he said.

Wise enters the position with a wealth of experience. He has held numerous technical and management roles during his tenure at Texas Instruments and was elected a TI Fellow in 1998. He has served as the manager of external research at the company for the past dozen years and is the inventor or co-inventor on 23 U.S. patents.

Wise has also chaired the Industrial Advisory Committee for the microEP program at the U of A for more than 10 years and was inducted into the Arkansas Academy of Chemical Engineers in 2008. He hopes these experiences and relationships will help him to transition successfully from industry into academia.

“In managing external research at TI, I primarily worked with universities and research consortia, so I’ve spent the last 10 years preparing for this. I always dreamed this would be the last phase of my career,” he said.

Wise holds a bachelor’s degree in chemical engineering from the University of Arkansas and master’s and doctoral degrees in engineering and applied science from Southern Methodist University. He largely attributes his success in industry to his time at the University of Arkansas and acknowledged that motivated him to return to the Fayetteville campus.

“I wanted to come back home and give back to the university that gave me a start,” he said.

Wise begins in his new role as program director on Monday, Aug. 18.

NSF Awards Graduate Research Fellowships to a Dozen U of A Students

Reference: University of Arkansas Newswire May 16, 2014

FAYETTEVILLE, Ark. – Twelve University of Arkansas students – six undergraduate students, three recent graduates, and three graduate students – have received National Science Foundation Graduate Research Fellowships for the upcoming academic year. Each fellowship is worth $32,000 per year and can be renewed for up to three years. Along with the renewable stipend, each student’s institution will receive $12,000 per year, bringing the total amount of funding awarded to these 12 students to more than $1.5 million.

"This has been an exceptional year for our students receiving national recognition," said Chancellor G. David Gearhart. "They have received more than $2.4 million in scholarships, and no award is more impressive than the National Science Foundation Graduate Research Fellowship. Twelve of our current students or recent graduates have received this prestigious award. Together these students will receive more than $1.5 million dollars in support for graduate study. And ten additional students have received honorable mention. We are incredibly proud of the students and of the faculty who have mentored them. It is a remarkable accomplishment."

Since 1952, the National Science Foundation has awarded the highly competitive Graduate Research Fellowship to more than 46,000 students in science, technology, engineering and mathematics, the so-called STEM fields. The award recognizes not only academic excellence, but also the expected future contribution that each student’s research will have to his or her field and to society at large.

  • Jeremy Dunklin of Haughton, Louisiana, is a graduate student in chemical engineering at the University of Arkansas. He received his undergraduate degree from Southern Arkansas University.
  • Megan Dunn of Muskogee, Oklahoma, majored in chemical engineering and graduated from the University of Arkansas in 2013. Dunn was a member of the Honors College as an undergraduate. She is currently a graduate student at the University of Michigan. 
  • William Erwin of Washington, Arkansas, graduated from the University of Arkansas in 2012 as a chemical engineering major with minors in chemistry and mathematics. As an undergraduate, Erwin was an Honors College student. He is currently a graduate student at Vanderbilt University.
  • Gregory Forcherio of Pacific, Missouri, is a graduate student in microelectronics-photonics at the U of A. He received his undergraduate degree from Southeast Missouri State.
  • Courtney Hill of Jonesboro is a senior Honors College student majoring in civil engineering with a sustainability minor. She also received a 2014 Fulbright Scholarship to South Korea. After completing her Fulbright, Hill plans to attend graduate school at the University of Virginia.
  • Ross Liederbach of Tulsa, Oklahoma, is a senior Honors College student majoring in electrical engineering with a minor in mathematics. He will attend graduate school at the University of Illinois at Urbana-Champaign.
  • Frederick McCollum of Forrest City is a senior Honors College student pursuing degrees in mathematics and computer science. He will attend graduate school at New York University’s Courant Institute of Mathematical Sciences.
  • Justin Norman of Hot Springs graduated from the University of Arkansas in 2013 with degrees in chemical engineering and physics with honors. He is currently a graduate student at the University of California, Santa Barbara.
  • Trent Rogers of Bella Vista is a senior majoring in mathematics. He will attend graduate school at the University of Arkansas.
  • William Stiritz of Russellville is a senior Honors College student majoring in biology with a Spanish minor. He will attend the University of Arkansas for graduate studies in ecology.
  • Nasya Moriah Sturdivant of Raleigh, North Carolina, is a graduate student in biomedical engineering. She received her undergraduate degree from North Carolina A&T State University.

This group of fellowship recipients marks a milestone year for the University of Arkansas. As of 2014, 104 U of A students have received the prestigious NSF Graduate Research Fellowship.

Six recent graduates –Alexander Nelson, Kaila Pianalto, Preston Scrape, Ryan Shinabery, Rebecca Simpson, and Mariel Williams – and four graduate students – Joseph O’Neill, Sean Salazar, Aaron Shew, and Micah Wyssmann – received honorable mentions.

University of Arkansas students and recent alumni interested in applying for scholarships and fellowships such as the NSF Graduate Research Fellowship should contact the Office of Nationally Competitive Awards at awards@uark.edu or 479-575-3771. More information is available at fellowships.uark.edu.

Researchers Develop New Mathematical Framework to Characterize Shape of Graphene

Reference: University of Arkansas Newswire May 05, 2014

FAYETTEVILLE, Ark. — Scientists studying graphene’s properties are using a new mathematical framework to make extremely accurate characterizations of the two-dimensional material’s shape.

Graphene, discovered in 2004, is a one-atom-thick sheet of graphite.

“The properties of two-dimensional materials depend on shape,” said Salvador Barraza-Lopez, an assistant professor of physics at the University of Arkansas. “And this mathematical framework allows you to make extremely accurate characterizations of shape. This framework is a novel tool to understand shape in materials that behave as atom-thin membranes.”

The mathematical framework being used is known as discrete differential geometry, which is the geometry of two-dimensional interlaced structures called meshes. When the nodes of the structure, or mesh points, correspond with atomic positions, discrete differential geometry provides direct information on the potential chemistry and on the electronic properties of two-dimensional materials, Barraza-Lopez said.

The application of discrete differential geometry to understand two-dimensional materials is an original interdisciplinary development, he said.

An international research group, led by Barraza-Lopez, published its findings on Jan. 8 in the journal ACS Nano, in a paper titled, “Quantitative Chemistry and the Discrete Geometry of Conformal Atom-Thin Crystals.” A second article describing the research, “Graphene’s morphology and electronic properties from discrete differential geometry,” was published March 6 as a rapid communication in the journal Physical Review B.

Graphene was once thought of as existing on a continuum — think of a smooth, continuous “blanket” — but the new mathematical framework allows the consideration of the blanket’s “fibers,” which provides an accurate understanding of the blanket’s properties that complements the continuum perspective.

“Since two-dimensional materials can be easily visualized as meshes, we asked ourselves how these theories would look if you express them directly in terms of the positions of the atoms, bypassing entirely the common continuum approximation,” Barraza-Lopez said. “These two papers provide our latest strides towards that direction.”

The results for the study published in ACS Nano on Jan 8 were obtained through a collaborative effort with Alejandro A. Pacheco Sanjuan at Universidad del Norte, Barranquilla, Colombia; Edmund O. Harriss, a clinical assistant professor of mathematics at the University of Arkansas; Mehrshad Mehboudi, a master’s student in microelectronics-photonics at the University of Arkansas and Humberto Terrones, then at Pennsylvania State University, now at Rensselaer Polytechnic Institute.

Collaborators on the rapid communication published in Physical Review B on March 6 were Pacheco Sanjuan; Hamed Pour Imani, a physics doctoral student at the University of Arkansas; Zhengfei Wang at the University of Utah; and Mihajlo Vanevic at the University of Belgrade, Serbia.

Halter Joins Picasolar Board of Directors

Reference: University of Arkansas Newswire April 18, 2014

FAYETTEVILLE, Ark. — Picasolar Inc., a solar startup company affiliated with the University of Arkansas, has added a former Arkansas lieutenant governor to its board of directors.

Bill Halter, a fourth-generation Arkansan who was born and raised in North Little Rock, served as lieutenant governor from 2007 to 2011. Prior to that, he was a deputy commissioner and acting commissioner of the Social Security Administration in Washington, D.C.

“Bill is a tremendous addition to the board and complements the other members perfectly,” said Douglas Hutchings, Picasolar’s chief executive officer. “Picasolar’s technology represents a big step towards making solar one of the most cost effective energy sources. In recent months we have hit several key milestones and Bill’s background will be extremely beneficial as the company continues to grow and add jobs.”

Halter has served on the boards of directors of 10 technology companies in diverse industries and on the board of trustees of Stanford University, his alma mater. Halter will provide extensive experience in managing complex enterprises and help guide Picasolar as it moves from lab to market. 

“Picasolar is a great example of Arkansas entrepreneurs competing in global markets I look forward to helping the company transition from technical progress to business growth,” Halter said.

Terry Tremwel, chairman of the four-person Picasolar board, said, “Picasolar is poised to have a significant impact on the solar industry and Bill will play an important role in reaching our potential.”

Picasolar’s technology, a hydrogen selective emitter invented by chief technology officer Seth Shumate — a doctoral student at the University of Arkansas — could improve the efficiency of solar cells by 15 percent. It is a key innovation in the fastest-growing segment of the fastest-growing energy source in the world.

Picasolar won more than $300,000 in cash while competing for the University of Arkansas at graduate business plan competitions in 2013, including $250,000 for winning the MIT NSTAR Clean Energy Prize. The team incorporated and is now located at the Genesis Technology Incubator at the Arkansas Research and Technology Park in Fayetteville. 

Hutchings holds two graduate degrees from the University of Arkansas, including a doctorate in microelectronics-photonics. He recently received a Early Career Award from the U of A's College of Engineering.

Graduate Program Focuses on Technology, Business Skills

Reference: University of Arkansas Newswire March 19, 2014

FAYETTEVILLE, Ark. — Nearly 16 years ago, 11 students at the University of Arkansas took a leap of faith.

They committed to enroll in an interdisciplinary master’s degree program in microelectronics-photonics — which hadn’t yet been approved by the Arkansas Department of Higher Education.

“We had our first group start into a non-existent program,” said Ken Vickers, director of the graduate program since its inception. “The second year, we had our first students who entered with a master’s degree from a prior, traditional department into a non-existent Ph.D. program. So we had some real risk-takers.”

The Master of Science program was proposed in the fall of 1998 and was approved by the Arkansas Department of Higher Education in the summer of 1999 for implementation that fall. The doctoral program in microelectronics-photonics was proposed in the fall of ’99 and was approved in the summer of 2000 for implementation that fall.

“We had a lot of support from the central administration, the deans, the department heads, and certainly the faculty,” Vickers said.

The program, better known by the name “microEP,” is the second-oldest interdisciplinary graduate program at the U of A, and the oldest that involves multiple colleges. The program reports directly to the dean of the Graduate School and International Education, but it closely aligns its policies to those of the J. William Fulbright College of Arts and Sciences and the College of Engineering.

Vickers, who holds a faculty appointment in the department of physics and is an adjunct faculty member in the department of electrical engineering, will retire in August. He’s overseen an expansion of the program from 11 in its first year of existence to a current enrollment of 60.

MicroEP is designed to expand a student’s knowledge beyond the boundaries of traditional departmental based graduate programs, Vickers said. Its students participate in cross-departmental research, take classes focused on applications from multiple engineering and science departments, and develop workplace productivity skills in a simulated industrial environment.

The outcome of their graduate education in this interdisciplinary environment will be a better understanding of microelectronic-photonic materials, as well as the creation of high-performance, miniaturized devices and systems made from these materials.

Just as importantly, the students gain an understanding of the economics that affect successful introduction of these devices and systems into industry and the community, said Vickers, who worked as a manager at Texas Instruments for 20 years.

“When we created the program, we advertised it as a professional development degree that accepted students from any rigorous science or technical program,” Vickers said. “They could put together a course program that put an emphasis on their exact career preparation. Not all of our students come in knowing exactly what they want to do, so we give them a very broad base in many different aspects of micro to nanoscale materials processing and devices.”

Vickers holds both a bachelor’s degree and master’s degree in physics from the U of A. Part of his job at Texas Instruments involved recruiting, and he would travel to Northwest Arkansas to visit with faculty and students. One time, he had dinner with Greg Salamo, now a Distinguished Professor of physics, and the two ended up talking for three hours about how to put together a graduate program in microfabrication and microelectronics.

“Greg mentioned that he had just won a research grant that included five years of funding to create the program that I had been talking about,” Vickers said. “I was fortunate enough to be chosen to come here and do it. I wasn’t a pioneer, however. When I got here, the faculty had identified the field they wanted planted and they had cut down the trees. It was my job to prepare the field and to find a way to seed it with this new concept. I came in at a great time. We already had the High Density Electronics Center. It was the perfect set-up to launch a new interdisciplinary program.”

In 1999, the U of A landed a $2.2 million Integrative Graduate Education Research Training grant. The grant program was created by the National Science Foundation to generate new ways to train doctoral students who enter technological fields.

“That gave us a nationally reviewed program description,” Vickers said. “It was highly prestigious.”

Through the years, the program has expanded beyond the electronics and photonics applications to any appropriate research dealing with micro to nanoscale materials, including formal training in commercialization of research into products useful to society.

“One of the benefits of microEP to our faculty is they can attract microEP students from different educational backgrounds to build a research group in the same way that they would build an entrepreneurial technology company,” Vickers said.

MicroEP’s emphasis on research commercialization is best shown by two of its alumni, local entrepreneurs Alex Lostetter, president and chief executive officer of Arkansas Power Electronics International Inc.; and Doug Hutchings, CEO of Silicon Solar Solutions.

“Our goal in microEP is to create value for the taxpayers of Arkansas through economic development based on advanced materials and devices and these two companies are just the tip of that iceberg,” Vickers said.