High frequency, low energy organic event based sensors for closed loop neurostimulation
Nature Sensors
Low-energy organic sensing systems designed for fast, high-frequency closed-loop neurostimulation.
Publications
Publications spanning implantable neuroelectronics, flexible biointerfaces, ionic communication, and systems-neuroscience-oriented neural engineering.
Nature Sensors
Low-energy organic sensing systems designed for fast, high-frequency closed-loop neurostimulation.
Advanced Science
Materials and interface engineering for denser and more spatially specific epidermal electrophysiology.
Nature Materials
Standalone conformable organic transistor systems for soft bioelectronic interfaces with tissue.
Science Advances
Implantable bioelectronic communication strategies that use ionic conduction through tissue.
Advanced Science
Organic neural interface devices aimed at single-neuron-scale resolution and advanced device integration.
Proceedings of the National Academy of Sciences
Fully implantable multiplexed neuroelectronics for preclinical closed-loop recording and stimulation.
Frontiers in Neuroscience
3D-printed recording hardware for coordinated electrophysiology across multiple brain regions in rodent experiments.
Advances in Pain Research: Mechanisms and Modulation of Chronic Pain
A synthesis of electrophysiological features associated with pain-related neural activity.
Neuroscience Bulletin
GPU-accelerated analysis of time-shifted synchronization structure in local field potential recordings.
Frontiers in Neural Circuits
Analysis of oscillatory signatures evoked by nociceptive stimulation across pain-related regions in rats.
Science Advances
Organic electronic interfaces for high-resolution human electrocorticography.