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From the design of improved batteries to the use of solar and wind power for commodity chemical production, the University of Pittsburgh’s James McKone explores ways that chemical engineering can make the world more sustainable. That’s why his most recent work, investigating ways that the chemical industry can use renewable electricity as its energy source, is featured in the Journal of Materials Chemistry A Emerging Investigators special issue.

The themed issue highlights the rising stars of materials chemistry research, from nanoparticle inks to next-generation solar cells. The featured investigators are early in their careers and were recommended by other experts in the field.  “We’re glad to have James on our faculty and know this honor is well-deserved,” says Steven Little, PhD, chair of the Department of Chemical and Petroleum Engineering at the Swanson School. “It confirms what we already know: that his lab’s work has the potential to influence the direction of future discoveries in energy production, energy storage and beyond.” 

In his classroom, engineering faculty member Tevis Jacobs is one animated presenter.

He speaks rapidly and enthusiastically while adding diagrams to clear overlays on two screens of slides projected onto the white board.  The course is “Mechanical Behavior of Materials,” which examines how things bend and break, down to their atomic structures. Today’s class encompasses the concepts of “work hardening,” “twinning,” and nickel-based super alloys (“You guys know that is my favorite topic,” Jacobs says). 

Jacobs joined the faculty of the Swanson School of Engineering in fall 2015, teaching this undergraduate class and another on experimental techniques, and offering one on tribology — the study of friction, wear and lubrication of sliding surfaces — to graduate students.

“I’ve always wanted to understand how the world works,” Jacobs says. “Mechanical engineering and materials science: what I like about them is that they are all around us. We are constantly interacting with objects, seeing how they perform. I like the idea of making them better in the future … but the current goal is (studying) ‘Why did this thing happen in this way?’ “What I love,” he adds, “especially in the classes I’m teaching now: we can answer that.”

The Autumnal Equinox ushers in a season of welcome changes in the Swanson Engineering Department, in the form of faculty promotions! Congratulations to Giannis Mpourmpakis and John Keith for their promotions and to Karl Johnson, Chris Wilmer, and Susan Fullerton for receiving the William Kepler Whiteford Professorship, William Kepler Whiteford Fellowship, and Bicentennial Board of Visitors Faculty Fellowship, respectively.

Among six Mellon College of Science (MCS) faculty members, Ben Hunt has been honored with a career development professorship that supports scientists at the beginning of their careers. He and the other faculty were recognized at a reception Sept. 12 in the Mellon Institute. “An endowed professorship is one of the highest honors that our institution bestows upon faculty, and this honor symbolizes the high esteem to which they are held,” said Carnegie Mellon University Provost Jim Garrett.

“Each of these faculty members are being recognized for their important work in fields that will be some of the most important of the 21st century,” said Rebecca W. Doerge, Glen de Vries Dean of the Mellon College of Science. “While their discoveries will make a significant impact in the world, that impact is equaled by their contributions to the students who they teach in class and mentor in the lab.”

The Stephen R. Tritch Nuclear Engineering program at the University of Pittsburgh’s Swanson School of Engineering has received three substantial grants from the U.S. Department of Energy’s (DOE) Nuclear Energy University Program (NEUP) totaling $2.3 million. PQI faculty members Dr. Heng Ban, Dr. Jung-Kun Lee, and Dr. Kevin Chen are among the recipients.

The awards are three of the 40 grants in 23 states issued by the DOE, which awarded more than $28.5 million to research programs through the NEUP this year to maintain the U.S.’s leadership in nuclear research. 

“Nuclear energy research is a vital and growing source of clean energy in the U.S., and we are at the forefront of this exciting field,” says Heng Ban, PhD, R.K. Mellon Professor in Energy and director of the Stephen R. Tritch Nuclear Engineering Program at the Swanson School of Engineering. “These grants will enable us to collaborate with leading international experts, conducting research that will help shape future of nuclear energy.” 

Congratulations!

Prof. Lillian Chong has been awarded an NIH RO1 renewal for $1.1 million over 4 years to pursue efforts involving "High-Performance Weighted Ensemble Software for Simulation of Complex Bio-Events." The efforts will be carried out in collaboration with co-PI Prof. Daniel Zuckerman (Oregon Health & Science University), co-I Prof. James Faeder (University of Pittsburgh Medical School), and co-I David Aristoff (Colorado State University). 

Congratulations Dr. Chong!

Qing Li, assistant professor of electrical and computer engineering at Carnegie Mellon University, is the recipient of a prestigious 2019 Young Faculty Award from the US Defense Advance Research Projects Agency (DARPA). He received the award based on his research proposal titled "Visible and mid-infrared frequency comb generation in wide-bandgap photonic materials."

The National Science Foundation has awarded Giannis (Yanni) Mpourmpakis $354,954 to continue his research into a promising but poorly understood method of creating olefins. Olefins, simple compounds of hydrogen and carbon, serve as the building blocks in chemical industry and are important for the synthesis of materials, including polymers, plastics and more. However, creating them can be problematic: it requires the use of fossil fuels, energy intensive “cracking” facilities, and limited production control. The team in Dr. Mpourmpakis’s CANELa lab will use computational modeling and machine learning to understand how the dehydrogenation of alkanes takes place on metal oxides, and use that knowledge to screen a wide range of metal oxides and their properties for use in the process.

Congratulations Dr. Mpourmpakis!

Jyoti Katoch, assistant professor of physics at Carnegie Mellon University, has received a prestigious early career grant from the U.S. Department of Energy (DOE). Katoch’s research focuses on understanding the properties of two-dimensional quantum materials.

The grant will allow Katoch, a condensed matter physicist, and her research group in Carnegie Mellon’s Lab for Investigating Quantum Materials, Interfaces and Devices (LIQUID) to investigate quantum materials using advanced technologies. 2D materials are the thinnest known materials. When these materials are stacked together, they form heterostructures with unique quantum properties, such as superconductivity. By changing the layers of materials, researchers can finely tune the heterostructure’s electronic and physical properties.

Under the DOE grant, Katoch will probe the spatially resolved electronic band structure of 2D quantum materials, including those made by stacking graphene and transition metal dichalcogenides, and engineer the materials’ properties by making nanoscale perturbations in superlattices and adatoms found in the materials’ heterostructures. They will do this by further developing in-operando nanoARPES, an experimental technique that combines spectroscopy and microscopy to study the band structures of quantum systems under non-equilibrium conditions.