HyperNIR technology: Transforming cameras into real-time environmental monitors

Detecting microplastics and figuring out plant stress at an early stage—this and far more can now be completed because of a brand new technique based mostly on near-infrared mild measurements. It’s cheap and works in actual time.

Researchers from Bochum, Duisburg, Karlsruhe and Münster have developed a brand new technique for environmental monitoring. It’s based mostly on near-infrared (NIR) mild and allows customers to acquire detailed spectral info from varied supplies and organic samples.

The staff headed by Jan Stegemann and Professor Sebastian Kruss from the Fraunhofer Institute for Microelectronic Circuits and Programs IMS and Ruhr College Bochum, Germany, confirmed that the HyperNIR expertise can be utilized for non-contact identification of several types of plastic, for instance, which is helpful for recycling processes and the detection of microplastics. The research is revealed in Superior Science.

Close to-infrared mild, which is invisible to people, accommodates beneficial details about the chemical composition of a pattern. Earlier strategies displayed it both as a grayscale picture or as a spectrum, i.e., as an depth distribution for various wavelengths. The brand new technique relies on hyperspectral imaging, which is a mixture of spectral and spatial info.

Utilizing cheap and commercially accessible parts, the researchers are capable of remodel any commonplace digital camera into a HyperNIR digital camera as a way to convert spectral info into photos. They use controllable polarization optics for this objective. Exterior markers, equivalent to dyes, will also be captured, however are usually not required.

Course of works in actual time

The system takes three photos of every pattern, which offer detailed spectral info. Whereas standard strategies require time-consuming scanning of a pattern, the HyperNIR digital camera is considerably sooner. “The flexibility to investigate completely different supplies and their properties in actual time can significantly enhance the effectivity of processes in environmental monitoring,” predicts Kruss.

The researchers confirmed, for instance, that the HyperNIR expertise enabled them to trace in actual time how a bell pepper plant absorbs water—with out contact and with out utilizing dyes. “Such hyperspectral imaging can doubtlessly be transferred to different molecules,” says Stegemann. “It may very well be used to observe the nutrient content material in a plant or to detect pest infestation and plant stress at an early stage.”

Purposes additionally possible in biomedicine

The HyperNIR technique will also be mixed with fluorescence microscopy to distinguish between varied fluorescent molecules which can be used as markers. Because of this the system is doubtlessly of curiosity for biomedical analysis. The staff headed by Stegemann and Kruss hopes to discover this space of software in additional element sooner or later.

“Integrating the method into drones might additionally assist to resolve urgent environmental points within the subject of agriculture by opening up a brand new dimension in knowledge assortment and evaluation,” says Kruss.