99% of microorganisms in nature have not yet been cultivated, which is known as the "dark matter" of the microbial community. The visual single-cell separation technology based on laser induced forward transfer technology (LIFT) can provide new strategies for the research of intestinal microflora, soil microorganisms, marine microorganisms, etc., and help the screening, development and utilization of industrial strain resources.
Rapid identification of microbial number, species and drug resistance is important in medical, food, industrial and other fields. Traditional microbial detection technology has the problem of long cycle and cannot provide a timely response plan. By using optical phenotypic information detection technology (image analysis, Raman spectroscopy, etc.), microbial and drug resistance identification can be accomplished quickly, accurately and timely.
The rapid, real-time and non-destructive characteristics of Raman spectroscopy make it have great application potential in tumor typing, micro-lesion detection, tumor edge labeling, cancer cell metabolism and other fields. The confocal Raman spectroscopy system, combined with artificial intelligence technology and ultra-fast three-dimensional imaging technology, provides a multidimensional technical solution for oncology research.
Particles in pharmaceutical preparations cause safety problems in clinical use and are an important critical quality attribute (CQA) of products. Confocal Raman technology combined with the deep learning algorithm, for rapid characterization of particulate matter and precision, to antibody preparations, cells and genes from the egg and biological vaccine products such as drug discovery, formulation development and process optimization, the stability of deviation survey research, production, quality control, and provide powerful basis complaint handling.
Based on the real-time optical signal interpretation technology and loop-mediated isothermal amplification (LAMP) technology, nucleic acid detection results can be automatically interpreted within 30 minutes, which is convenient and fast to operate without site constraints. Different LAMP kits can be used to detect a variety of infectious diseases at home or in communities, which is expected to promote rapid virus detection and epidemic prevention.