Dr. Melina Uncapher
Assistant Professor, Department of Neurology, UC San Francisco
Dr. Melina Uncapher is an Assistant Professor in the Department of Neurology at University of California San Francisco, leading the department’s educational neuroscience efforts as Director of Education for Neuroscape, a new center that aims to bridge neuroscience and technology (neuroscape.ucsf.edu/education/). Dr. Uncapher has spent 16 yrs at the forefront of learning neuroscience and now applies research to solve real-world problems in education and technology.
Dr. Uncapher leads a multi-university National Science Foundation-funded network studying how executive function contributes to academic achievement. She co-founded and is CEO of Institute for Applied Neuroscience (scienceforgood.org), a nonprofit that arms educators and students with practical tools based on learning science.
She also runs a National Institutes of Health (NIH)-funded research program that investigates whether technology use is associated with neurocognitive changes. She co-chaired a 2015 National Academy of Sciences conference on children and technology and sits on the board of the Institute of Digital Media and Child Development. She also holds an affiliation with Stanford’s Psychology Department and is a MacArthur Scholar. Her work has been highlighted in media outlets such as the New York Times, PBS and Frontline. Her science outreach work includes serving as Script Supervisor on the Emmy-nominated PBS TV series The Brain with David Eagleman, and as scientific advisor on an award-winning short film about the brain.
Published Articles & Research
- Media multitasking and memory: Differences in working memory and long-term memory
Psychonomic Bulletin and Review
- Electrocorticography reveals the temporal dynamics of posterior parietal cortical activity during recognition memory decisions
Proceedings of the National Academy of Sciences, USA
- Goal-Directed Modulation of Neural Memory Patterns: Implications for fMRI-Based Memory Detection
Journal of Neuroscience
- Increased functional connectivity between dorsal posterior parietal and ventral occipitotemporal cortex during uncertain memory decisions
Neurobiology of Learning and Memory