Scientists have pioneered a new direction in organic semiconductor short-wave infrared electroluminescence, which will have a far-reaching impact on the development of the industry.
First of all, this new technology will promote the progress of optoelectronic display technology. Traditional liquid crystal displays and organic light-emitting diode (OLED) displays rely mainly on blue or red light-emitting materials, while the emergence of short-wave infrared electroluminescent materials will enable displays to emit light that is closer to natural light, which will improve the display effect and reduce damage to the human eye.
Secondly, this new technology will also promote the development of medical and health care field. Short-wave infrared electroluminescent materials can be used to make new types of medical devices, such as infrared imaging devices and biosensors, which have a wide range of applications in medical diagnosis and disease treatment.
In addition, short-wave infrared electroluminescent materials can also be used in the military field, such as night-vision equipment, infrared thermal imaging equipment, etc., which will greatly improve the military combat capability.
However, the commercialization of this new technology still faces some challenges. For example, the preparation process of short-wave infrared electroluminescent materials is complex and costly; their stability and lifetime also need to be further improved. Therefore, future research needs to further optimize the material properties and reduce the production cost to meet the market demand.
Overall, scientists are pioneering a new direction in organic semiconductor short-wave infrared electroluminescence, which will revolutionize the fields of optoelectronic displays, medical and healthcare, and the military, and at the same time provide new opportunities for the development of related industries.