Light-Induced Electrode Scanning Microscopy

Patch clamps and microelectrode arrays have been widely used to detect the electrical properties of cells in biomedicine. Yet, both technologies can record signals only in an invasive manner or at fixed positions. Based on the resolution (LAPS) and optically induced dielectrophoretic, we present a novel light-induced electrode scanning microscopy. It works like a "radar", scans the whole area with living cells in culture, and detects the electrical signals of single cells on a photosensitive chip. In the system, a light pattern projected onto the chip is used to form the corresponding light-induced electrode, and the electrode scanning mode is implemented by moving the light pattern or the chip position for the measurement of the electrical characteristics of biological cells and cell localizations. It provides a new tool for the detection of cell electrical properties and is expected to become the next generation of electrophysiological detection technology.