A5038381961- Photoreceptor and optogenetics research
- Neuroscience and Neural Engineering
- Molecular Communication and Nanonetworks
- Advanced Memory and Neural Computing
- Advanced Sensor and Energy Harvesting Materials
George Washington University
2022-2023
Optical fluorescence and electrical monitoring of cell activity are two powerful approaches to study organ functions. Simultaneous recording optical data types will provide complementary information from take advantage each approach. However, devices that can concurrently record signals the same population underneath microelectrodes have not been widely explored remain a grand technical challenge. This work presents an innovative flexible opto-electric device monolithically integrates...
Abstract Bioelectronic devices that allow simultaneous accurate monitoring and control of the spatiotemporal patterns cardiac activity provide an effective means to understand mechanisms optimize therapeutic strategies for heart disease. Optogenetics is a promising technology research due its advantages such as cell‐type selectivity high space‐time resolution, but efficacy limited by insufficient number modulation channels lack mapping capabilities in current implantable optogenetics tools...
Abstract Bioelectronic devices that allow simultaneous accurate monitoring and control of the spatiotemporal patterns cardiac activity provide an effective means to understand mechanisms optimize therapeutic strategies for heart disease. Optogenetics is a promising technology research due its advantages such as cell-type selectivity high space-time resolution, but efficacy limited by insufficient number modulation channels lack mapping capabilities in current optogenetics tools. Here we...
ABSTRACT Optical fluorescence and electrical monitoring of cell activity are two powerful approaches to study organ functions. Simultaneous recording optical data types will provide complementary information from take advantage each approach. However, devices that can concurrently record signals the same population underneath microelectrodes have not been widely explored remain a grand technical challenge. This work presents an innovative flexible opto-electric device monolithically...