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CHICAGO — The Departments of Materials Science & Engineering (MSE) and Electrical and Computer Engineering (ECE) at the University of Utah is proud to share the news that Joshua Winger (B.S./MS., ’19) won best poster at the 46th annual IEEE Photovoltaic Specialist Conference (PVSC) held June 16-21, 2019 in Chicago, Illinois.

Advised by Dr. Michael A. Scarpulla (Professor in MSE and ECE), Winger’s poster was named best poster by a panel of judges through a rigorous critique of design, technical merit, impact within the field and an oral presentation defending the research.

A student of the MSE’s B.S./M.S. program, Winger has been recognized for his contributions to the department as he was named the MSE Outstanding Graduating Senior in 2018. Additionally he was recognized as the College of Engineering Outstanding Teaching Assistant for the academic 2016-17 school year.

 

“You want tech jobs in Utah, you’ve got to have more engineers.”

That’s what Adobe co-founder and University of Utah College of Engineering graduate John Warnock once said to then-Utah Governor Michael Leavitt, according to a May 11 story on Forbes about Utah’s rising tech sector.

In the last 20 years, the number of tech jobs in Utah rose 347%, and the state is now third in the country in venture capital activity per capita, according to the story.

Read below from Forbes about Utah’s success story as a rising tech center, thanks in no small part to our ability to feed new engineers into the workforce.

A few weeks ago, Former Utah Governor and Health & Human Services Secretary Michael O. Leavitt spoke at a technology summit here in the state. He talked about where Utah’s tech sector was 25 years ago, where it is now and what needs to happen to keep the momentum going.

“Leadership is a generational relay,” Leavitt said. “Each generation builds on the generations before.” A quarter of a century ago, Leavitt’s administration laid the foundation for the state’s business growth with an objective to become a tech capital.

Click here to read the rest of the story.

The University of Utah is the top research university in the nation when it comes to commercializing technology innovations, according to the Milken Institute’s 2017 ranking of Best Universities for Technology Transfer.

The U has “quietly evolved into one of the most prestigious research universities in the United States with a strong emphasis on commercializing its research,” the institute said in the report released April 20. The U moved to the top spot after being ranked 14th in the institute’s inaugural report released in 2006.

The U was ranked above other top-tier research institutions, including Columbia University, the University of Florida, Brigham Young University and Stanford University.

“This recognition is due to the tremendous culture of innovation and entrepreneurship created by our faculty and the caliber of translational research here at the U,” said Keith Marmer, executive director and associate vice president of Technology & Venture Commercialization at the University of Utah. “The work our faculty is doing leads to knowledge and innovations that result in high-skill jobs and companies whose benefits are felt in Utah and beyond.”

This is the second time the U has been ranked No. 1 this year in the commercialization of its research.

The University of Utah was also named the top college in the country for aspiring entrepreneurs, according to LendEdu, an online marketplace for student loans, student loan refinancing, credit cards, and personal loans.

In a survey of the top 50 colleges, the U came out on top based on entrepreneurship courses offered, tuition and fees and entrepreneurship resources available.

The Milkin ranking is based on the University Technology Transfer and Commercialization Index, which uses four key indicators of technology transfer success, measured on a four-year average (2012-2015): patents issued, licenses granted, licensing income and start-ups formed. These were normalized based on a four-year average of research dollars received by each university, for a total of eight measures.

The index uses data collected by the Association of University Technology Managers in its Annual Licensing Activity Survey.

The U attracted $417.2 million in research spending in 2015, the institute noted, and consistently ranked high across all the indicators. It was propelled to the No. 1 position due to licensing income and start-ups, which received the highest weights in the overall index.

Between 2012 and 2015, the U generated $211.8 million in licensing income and recorded 69 start-ups, which the report noted was a “remarkable accomplishment” given its location in a smaller metropolitan area.

“Utah has a strong entrepreneurial culture and an incentive system that makes it attractive for research faculty and students alike,” the report said, praising the U’s Technology & Venture Commercialization as “among the best in the nation.”

It highlighted several research and entrepreneurial endeavors at the U: the Center for Medical Innovation; the Entrepreneurial Faculty Scholars program; the Lassonde Entrepreneur Institute; and the Center for Engineering Innovation.

The institute noted that public and private universities are a source of competitive advantage because they create a skilled workforce and, through research and development and tech-transfer, help create new technologies and new industries.

“Research funding should be a top priority for enhancing American economic growth,” the institute stated in its report.

Materials science and engineering assistant professor Taylor Sparks received a five-year NSF CAREER Award. The award is for his project of developing tools to more safely and effectively discover new materials that could be used to harvest wasted energy.

Typically, about 60 percent of energy used from things such as a laptop computer, cell phone or even power lines is wasted in the form of heat. “If you can recover even small amounts of that, there is tremendous potential for energy,” Sparks said.

So he and his team have partnered with a software development company to develop tools that can take huge amounts of data about all known materials and suggest the best sustainable thermoelectric compounds that can extract this wasted energy. The software company will develop the programs, while Taylor and his team will provide the database of materials and validate the software’s results.

“In essence it works like Netflix. If you watch season after season of ‘Battlestar Galactica’ or give it five stars, then it can suggest with high probability that you might also like ‘Star Trek: The Next Generation,’” he said about how the software would work. “Instead of picking random compositions out of a hat to discover new materials, we rely on computationally inexpensive statistical probabilities of thermoelectric performance to predict what new materials might be great performers, and then we go make them.”

By successfully coming up with compound materials that can absorb the heat and convert it to energy, these materials could be key to increasing the energy efficiency for any powered device.

Sparks earned his bachelor’s in materials science and engineering from the U in 2007, a master’s in materials from the University of California, Santa Barbara, and a doctorate in applied physics from Harvard University.