Caroline is originally from Moscow, ID, and is happy to be back in the west and back at Carroll! Caroline attended Carroll College as an undergraduate student, and earned a bachelor’s degree in chemistry in 2003. She then moved to Madison, WI, where she attended graduate school at the University of Wisconsin – Madison and held a joint appointment between Dr. Robert McMahon and Dr. John Moore. While at UW Madison Caroline conducted research in a physical organic chemistry group (McMahon) where she studied the photochemistry of reactive intermediates. She also conducted chemical education research (Moore) where she designed, developed, and implemented a websitethat introduces current science research into middle and high school classrooms. Caroline graduated with a Ph.D. in organic chemistry in May of 2008. After taking the summer off to travel across the United States and to Europe with her husband Chapin, they moved to Erie, PA in August of 2008, where she joined the faculty at Mercyhurst College. In the fall of 2011, Caroline came back to her alma mater, and is now a faculty member in the chemistry department.
At Carroll, Dr. Pharr teaches the general chemistry and organic chemistry lecture and laboratory sequences as well as Advanced Organic Chemistry. Her research group works at the interface of synthetic organic chemistry and materials science (more below). When she’s not at school she likes to keep busy outside and enjoys running, biking, hiking, swimming, cross country skiing, and doing sprint triathlons. When not running around, she enjoys helping her husband brew beer, rooting for the Packers, and tackling various home improvement projects!
Our research group works at the interface of synthetic organic chemistry and materials chemistry. Specifically, we are working to synthesize stable, long lived organic molecules that emit light in the blue region. Organic molecules that emit light in the visible region have found a broad range of applications in technology. Currently organic light emitting diodes (OLEDs) are being used in general lighting, cell phone and automobile displays, and more recently in televisions. OLEDs are advantageous over traditional lighting sources because they require less energy to run, provide brighter light, and can applied to various substrates, including cloth or plastic.
Assistant Professor of Chemistry
Ph.D. University of Wisconsin - Madison
B.A. Carroll College
Areas of Interest: Organic Chemistry, Chemical Education
Courses Taught: General Chemistry, Organic Chemistry, Advanced Organic Chemistry
(Undergraduate student authors indicated by star*)
Best Undergraduate Presentation Award! “Synthesis and study of a novel family of conjugated carbazole centered compounds with potential applications in organic light-emitting diodes (OLEDs)” Myunghoon Kim* and Dr. Caroline Pharr, Montana Chapter of the American Chemical Society , Butte, MT, April 20th, 2012
“Synthesis and study of a novel family of conjugated carbazole centered compounds with potential applications in organic light-emitting diodes (OLEDs)” Myunghoon Kim* and Dr. Caroline Pharr, National Meeting of the American Chemical Society, New Orleans, LA, April 8th, 2012
“Carbazole Centered Molecules as Blue Light Emitters for Use in Organic Light Emitting Diodes” Caitlin Nicka* and Dr. Caroline Pharr, National Conference on Undergraduate Research, Ithaca, NY, April 2011
Invited Talk - “From Reactive Intermediates to Synthesis of Organic Molecules for Materials Devices” Dr. Caroline Pharr, John Carroll University Seminar Series, University Heights, OH, November 3, 2010
“Energy science: Teaching chemistry and physics to non-science majors in a context relevant to their lives” Dr. Caroline Pharr and Dr. Candee Chambers, National Meeting of the American Chemical Society, Boston, MA, August 2010
“Synthesis of carbazole-centered blue light-emitting organic molecules for use in organic light-emitting diodes” Caitlin Nicka* and Dr. Caroline Pharr, National Meeting of the American Chemical Society, Boston, MA, August 2010
“Synthesis and characterization of blue light-emitting molecules for application in OLED technology” Emma Bradic* and Dr. Caroline Pharr, National Meeting of the American Chemical Society, Boston, MA, August 2010