In this page, you will find a detailed protocol for achieving optical transparency in live animals with absorbing molecules, based on Science 2024, 385, eadm6869.
We are developing a circulation-delivered internal light source for biomedical applications that need light emission deep inside the body, such as optogenetics, fluorescence imaging, and photodynamic therapy.
We leverage the demonstrated deep-brain penetration of NIR-II light (1000-1700 nm) to develop infrared optogenetics based on bandgap-engineered semiconducting polymers.
We are developing injectable nanoantennas and radiofrequency (RF) generators to modulate and communicate with the biological tissue with free-space radio waves.