Six Davidson School of Chemical Engineering faculty members were honored for their years of service at Purdue University on Friday, November 30, 2018 during the Faculty Service Recognition Luncheon hosted by the Office of the Provost. Dr. Sangtae Kim, Dr. Stephen Beaudoin, Dr. David Corti, Dr. Fabio Ribeiro, Dr. Linda Wang, and Dr. You-Yeon Won were among the honorees.

Davidson School of Chemical Engineering's Dr. Jeffrey Miller was recently featured on the Editors' Highlights page of Nature Communications for his research. Dr. Miller's paper, "Deconvolution of octahedral Pt3Ni nanoparticle growth pathway from in situ characterizations," was selected in the Inorganic and Physical Chemistry category.

"Radical" technology being developed by Purdue Chemical Engineering researchers that enables a glass-like polymer to conduct electricity for transparent and flexible electronics has been nominated for 2018 Molecule of the Year, one of only eight, by Chemical and Engineering News. Dr. Bryan Boudouris, the Robert and Sally Weist Associate Professor of Chemical Engineering, led the research team which included ChE Assistant Professor Dr. Brett Savoie.

Davidson School of Chemical Engineering Assistant Professor Brett Savoie is part of a team of researchers at Purdue University creating electronics that withstand extreme heat. The new plastic materials blends two organic materials together, and could reliably conduct electricity in up to 220 degrees Celsius (428 F), according to a paper published on December 6, 2018 in the journal Science.

The chemical element that makes up most of today's batteries, lithium, may soon be challenged by its polar opposite on the periodic table: fluoride. The two elements would be in competition for helping electronics last longer on a charge, such as electric cars that need to travel more miles than is possible with lithium-ion batteries on the market. Davidson School of Chemical Engineering Assistant Professor Dr. Brett Savoie and a team of researchers are closer to equipping fluoride-based batteries for battle with improvements that allow the technology to operate at room temperature. Up until this point, fluoride had been limited to building high-temperature batteries that are impractical for our electronic devices.