Five 瓜子TV students collaborating with faculty mentors in the fields of geology, physics, biochemistry, biology and chemistry have been named 2022-23 Science Scholars and presented with research grants funded by the Kenneth T. and Eileen L. Norris and Fletcher Jones foundations.
The scholars selected by 瓜子TV faculty, President Harry J. Elam, Jr. and physicist Jessica Kirkpatrick '02 for the prestigious annual honor are Norris Scholars Peter Grimmett 鈥23, a geology major from Carmichael, and Tehreem Navira Hai 鈥23, a physics major and mathematics minor from Karachi, Pakistan, as well as Fletcher Jones Scholars Edin Custo 鈥23, a biochemistry major from Mostar, Bosnia and Herzegovina; Mira Ranganath 鈥23, a biology major from Davis; and Jack Thomas-Colwell 鈥23, a chemistry and computer science major from Oak Park, Ill.
Each Science Scholar receives $15,000 for research conducted spring term junior year, summer research between junior/senior years, and all of senior year. Each scholar will present their work at a professional conference as well as at 瓜子TV's summer 2022 Undergraduate Research Conference.
Working with Assistant Professor of Geology Darren Larsen, Grimmett will pursue a project entitled 鈥淩econstructing Wildfire and Late Holocene Hydroclimate Variability in California from Lake Core Sediments.鈥
Grimmett will analyze sediments drawn from Parker Lake in the Sierra Nevada (east of Yosemite) to create a record of wildfires and the surrounding environmental conditions during the late Holocene epoch鈥攖he period covering the last 11,700 years. 鈥淓stablishing a relationship between climatic changes and past wildfire variability will make it possible to interpret modern variability to see how severe these changes are and what possible future repercussions may be,鈥 says Grimmett.
Hai is working with Assistant Professor of Physics Sabrina Stierwalt on a project entitled 鈥淪tar Clusters in Interacting Dwarf Galaxies.鈥 Using specially granted high-resolution data of a dwarf galaxy merger from the Hubble Space Telescope, Hai and Stierwalt will test their theory that such interactions between galaxies trigger disproportionately massive star cluster formation.
鈥淭he findings and the methodology we are developing and plan to publish will be of broad interest to the astrophysics community, due to the insights they offer in fields such as star formation, dwarf galaxy evolution and the physics of the early universe,鈥 Hai says.
Custo鈥檚 research project, on which he is working with Associate Professor of Chemistry Emmanuelle Despagnet-Ayoub, is entitled 鈥淚nvestigating the Potential of Functionalized Carbon Nanotubes to Increase the Energy Density of in a Semi-Solid, Non-Aqueous Redox Flow Battery System Using Two Approaches of Carbon Nanotube Functionalization and Complexation.鈥
Despite its intimidating title, Custo and Despagnet-Ayoub鈥檚 project could have a major impact on our ability to store energy from intermittent sources such as solar and wind power. Redox (reduction-oxidation) flow batteries, or RFBs, have a great potential for storing intermittent source energy because they have decoupled energy and power storage units. 鈥淭his project aims to assess the potential of carbon nanotube-cyanometallic complexes to increase the amount of energy that can be stored on a RFB while decreasing its size,鈥 Custo says.
Ranganath, together with Gretchen North, the John W. McMenamin Endowed Chair in Biology, is working on a project entitled 鈥淚nteracting Effects of Heat and Water Stress on Plant Tissue Thermotolerance鈥 that will study the impact of climate change and rising temperatures on different plant species.
鈥淢y project aims to uncover how different plant species are affected by heat and water stress and whether these stresses have compounding effects,鈥 Ranganath explains. 鈥淚t is also aimed at finding whether heat tolerance varies between juveniles and adults of California native or commonly planted city trees. I hope that the results of my research will help us gain insight into how plants cope with heat and water stress and predict how tree species in urban and natural environments will cope with changing conditions.
Thomas-Colwell will be collaborating with Fletcher Jones Foundation Professor of Chemistry Michael Hill on a project titled 鈥淓lectromechanical Reshaping of Cornea,鈥 a study of a promising alternative method of correcting common eyesight problems arising from the deformation of the cornea.
Existing procedures such as LASIK surgery cause significant damage to the underlying structure of the cornea. Electromechanical reshaping of the cornea provides a non-invasive and low-cost option that manipulates the chemical structure of the cornea for permanent reshaping. 鈥淲e鈥檙e working on a technique for correcting nearsightedness and other problems using custom 3-D printed lenses that provide a highly customizable and relatively inexpensive method for corneal reshaping,鈥 says Thomas-Colwell.