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Ogba Research Group Showcases Computational Innovation at MERCURY

This past summer, four students from the Ogba Research Group at 无忧视频 traveled to the 2025 MERCURY Conference, a premier national venue for undergraduate computational chemistry, to present their latest findings. These students demonstrated how high-performance computing and data science can unlock solutions to some of chemistry鈥檚 most complex challenges.

Aresema Ata 鈥�28 and Max Schernikau 鈥�27 presented cutting-edge work on sustainable catalysis, with Aresema exploring the 鈥淭hermal stability of carbones in the presence of carbon dioxide鈥� and Max detailing the 鈥淩eductive functionalization of carbon dioxide catalyzed by a carbodicarbene.鈥� Their combined efforts shed light on how novel carbon-based catalysts can be used to transform greenhouse gases into useful chemical feedstocks.

Nora Nickolov 鈥�28 showcased their research on 鈥淪tructure-activity relationships of dioxido molybdenum(VI) complexes for deoxydehydration reactions,鈥� offering critical insights into designing earth-abundant catalysts for converting biomass into renewable fuels. Meanwhile, Zaan Saeed 鈥�28 highlighted the group鈥檚 expansion into artificial intelligence with his poster, 鈥淧redicting peptide cyclization yields using a machine learning framework,鈥� demonstrating how modern algorithms can accelerate the discovery of new therapeutic drugs.

The strong showing by the Ogba group at MERCURY underscores Harvey Mudd鈥檚 leadership in the computational sciences, where students are not just learning theory but actively defining the future of chemical research.

Photos, from left, Aresema Ata 鈥�28, Nora Nickolov 鈥�28, and Professor Maduka Ogba with Mary Van Vleet 鈥�12.