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Five UGA scholars granted NSF CAREER awards

Melanie Reber, Christopher Newton, Qin Lu, Guoyu Lu, and Nadja Zeltner
The 2024 CAREER awardees at UGA are (clockwise from top left) Melanie Reber, Christopher Newton, Qin Lu, Guoyu Lu, and Nadja Zeltner. The award funds research, labs, equipment, and new educational opportunities for students.

Five UGA scholars have received awards in 2024 from the for their research and potential as academic role models.

The awardees are assistant professors Melanie Reber ( ), Christopher Newton (), Qin Lu (), Guoyu Lu (College of Engineering), and Nadja Zeltner (Franklin College of Arts and Sciences and the ).

Collectively, the awardees received over $3 million to fund research, labs, equipment, and new educational opportunities for students. The award is given to 500 recipients each year and is designed to assist faculty in projects that integrate education and research.

plans to use this award to examine molecular dynamics in electronic and vibrational states using new techniques.

鈥淪tudents involved in the project will gain highly technical training in lasers, optics, and electronics, which are relevant to a range of high technology fields including quantum technologies,鈥 Reber said.

received his award for a research program focused on developing new organic chemistry strategies and reactions to provide more efficient access to molecules such as pharmaceuticals and chemical probes.

鈥淭his NSF CAREER award funds our work in the 鈥榩ericyclic鈥 chemistry space, where we are looking to develop new classes of highly reactive molecules that enable the rapid generation of molecule complexity in a controlled and convergent manner,鈥 Newton said. 鈥淚t also allows us to further expand our outreach activities, including mentoring local high school students and the development of open-access educational tools.鈥

specializes in signal processing, machine learning, and communication. Her research focuses on creating safe and reliable Internet of Things (IoT) applications for important areas like health care, surveillance, and self-driving cars. She aims to develop algorithms that can measure and evaluate their own accuracy and reliability in making decisions.

Using this award, Qin Lu鈥檚 next step is pursuing further uncertainty-aware learning and optimization algorithms and exploring how to enhance foundation models with uncertainty quantifiability and reliability for IoT-related tasks.

鈥淢y research aspires to advance the current tools for real-time IoT tasks, with direct impact on the number of safety-critical domains, including health care, transportation, and environmental sensing,鈥 she said.

researches at the intersection of robotics, perception and vision, and machine learning, specifically developing AI techniques to tackle challenges in robot perception under various sensing modalities. Guoyu Lu鈥檚 methods can be applied to a variety of fields ranging from remote sensing to plant science.

鈥淚 have established extensive collaborations with researchers across various fields at UGA, such as agriculture, geography, forestry, and environmental science,鈥 he said. 鈥淭hese partnerships have been instrumental in achieving the NSF CAREER Award, which aims to develop AI methodologies for building and assessing 3D models of both underground and aboveground environments at multiple scales and establishing their connections.鈥

has concentrated on using human pluripotent stem cells (hPSC) to recreate human diseases in a lab setting, specifically focusing on generating tissues of the adrenal gland, a vital organ that regulates hormones responsible for salt intake, sex development, and the response to stress.

鈥淭his award is crucial because it will help us create advanced adrenal gland organoids that function more like the real organ. The methods we develop could also be applied to create organoids of other types of organs in the future,鈥 Zeltner said.