Seminars typically take place at noon in 102 Rooke Chemistry Bldg.These speakers joined us in spring 2015.
Dr. Joseph Salvino, Drexel University College of Medicine
Dr. John Sivey, Department of Chemistry, Towson University
Shauna Anderson, Bucknell Grad Student in Chemistry
Bill Simpson, Bucknell Faculty Associate, session planned especially for students
Robert Mathers, Department of Chemistry, Penn State University
Professors David Rovnyak, Charles Clapp, Marie Pizzorno (biology), Thomas Selby, and Timothy Strein explore molecular interactions and share a Major Research Instrumentation award from NSF (learn more)
Project Title: MRI: Acquisition of Isothermal Titration Calorimeter to Characterize Molecular Interactions Funding Agency: National Science Foundation (NSF) Award Amount: $91,012 Award Period: 2013-2016
NSF supports Professor Eric Tillman's work on a novel synthesis and characterization of cyclic polymers (learn more)
Project Title: RUI: Synthesis of Macrocyclic Polymers Using Radical Trap Assisted-Intramolecular Atom Transfer Radical Coupling Funding Agency: National Science Foundation (NSF) Award Amount: $130,000 Award Period: 2013-2016
Professor Robert Stockland is funded by NSF to develop a new method to synthesize functionalized nucleosides, molecules with potential applications in medicine (learn more)
Project Title: RUI: Synthesis of New P-Metallated Nucleosides Funding Agency: National Science Foundation (NSF) Award Amount: $163,534 Award Period: 2013-2016
Tim Strein and David Rovnyak, NSF-RUI "RUI: Molecular Characterization of Aggregation and Guest-Host Solvation by Bile Acids" $159,185, 2012-2015 (learn more)
Strein and Rovnyak received an award to investigate the precise functionality of bile micelles - electrically charged aggregates of naturally occurring molecules. "For 50 years, scientists have struggled to understand this important class of micelles," says Rovnyak. "We think we have begun to unravel the debate." The team hopes its findings might lead to improved applications such as chemical separations and drug delivery, and improve the understanding of bile in physiology.
Charlie Clapp, NSF-RUI "RUI: Substrate Binding and Regiochemical Control by Soybean Lipoxygenase-1" $50,000, 2012-2015. (more)
Clapp and a group of undergraduate researchers are trying to determine how enzymes work so well at catalyzing reactions. The team is "tinkering with" a particular class of enzymes called lipoxygenases, which are found in soybeans. The researchers are altering the enzymes' DNA and changing the substrate - the molecule on which the enzyme acts - to identify the exact position on the molecule where the catalytic reaction takes place. "Catalysis is one of the most important technologies of the 21st century," Clapp says. "It can help us develop chemical products more efficiently and with fewer by-products."
George Shields, NSF-MRI "MRI: Acquisition of High Performance Computers for the Molecular Education and Research Consortium in Undergraduate computational chemistry (MERCURY)" $200,000, 2012-2015. (learn more)
Shields, along with postdoctoral fellow Berhane Temelso and a group of undergraduate researchers are using high-speed computing to predict how and where water and other molecules will cluster to form clouds.
The results may help scientists understand how clouds will affect the pace of climate change.
Other Recent Awards
Rob Stockland, ACS-Petroleum Research Fund "P-H Activation Using Alkynylmetal Complexes: New Methodology for the Preparation of Metallopolymers" $65,000, 2012-2015.
George Shields, NSF, "RUI: Thermodynamics of Secondary Aerosol Formation: The Role of Binary and Ternary Nucleation" $315,000, 2012-2015 (learn more)
George Shields, NSF "Using Early Introduction to Undergraduate Research to Recruit, Retain, and Graduate More (science, technology, engineering, and math) STEM Majors". Principal Investigator: George Shields; Co-PIs: M. Lynn Breyfogle (mathematics), Dee Ann Casteel. $450,000, 2013-2018 (learn more)
Places I've Been
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