Vantablack was originally developed for satellite-borne earth observation imaging and calibration systems, where it increases instrument sensitivity by improving absorption of stray ultraviolet, visible and infrared light. Since then, many other applications have emerged, including solar-energy collector elements, functional surfaces in buildings and architecture, cinematographic projectors, high-performance baffles and lenses, and scientific instruments.
Vantablack S-VIS’ performance is claimed to outstrip that of any other conventionally-applied coating, typically achieving a reflectance of less than 0.2%. It offers this performance across a range of viewing angles and wavelengths, which is critical for optical instruments, as well as in many aesthetic applications.
Surrey NanoSystems says that Vantablack S-VIS can be applied to most stable surfaces, with the only major constraint being the ability to withstand temperatures of 100°C, making it suitable for many types of engineering-grade polymers and composite materials. The process is said to be scalable and suitable for high-volume production on a range of substrate sizes.