We present a lightweight, transparent,cost-effective infrared imaging technology utilizing organic molecules. This innovative approach combines an organic infrared photodetector, a transparent conductive electrode,an organic light-emitting diode into an integrated "organic upconversion device." Thus, we have successfully integrated this device into compact wearable glasses, expanding human visual perception by converting invisible infrared energy into the visible spectrum.

We have developed a novel upconversion device using our materials science, optoelectronics,electron engineering expertise. Our device incorporates an organic molecule as the charge generation layerdemonstrates a large-area, semi-transparent, lightweight, wearable infrared imaging capability. The uniqueness of our technology lies in the integration of organic heterogeneous interfaces, exciplex emitting layer,transparent alloy electrodes, combining interdisciplinary knowledge.

Organic upconversion devices possess immense potential for commercialization. For instance, enhanced imaging in low-light conditions benefits surveillanceautonomous systems. Asian Silicon ValleySmart Machinery have gained substantial advantages in this field. Improved vital sign monitoring is advancing Precise Health. These applications are in line with the government＇s innovation objectives. Embracing this technology propels progress,contributes to national development.