Mass spectrometry imaging sources are a revolutionary science and technology that will bring unlimited scientific innovation and application prospects to all walks of life. By leveraging mass spectrometry imaging sources, we are able to analyze and image molecules in samples with unprecedented precision and resolution, revealing secrets hidden in the microscopic world.
Mass spectrometry imaging sources work by ionizing molecules in a sample and analyzing them by a mass spectrometer. This technique not only provides accurate mass information, but also provides spatial resolution, allowing us to map the distribution of molecules on the sample surface. This molecular-level imaging capability provides scientists with new ways to understand biological processes and disease development at the cellular and tissue level.
In the medical field, mass spectrometry imaging sources can help scientists better understand the mechanisms of disease and the effects of treatments. By imaging the mass spectrometry of tumor tissue, we are able to reveal the distribution of different molecules within the tumor, which in turn can inform clinicians to develop personalized treatment plans. In addition, mass spectrometry imaging sources can also be used in drug discovery to help scientists understand the distribution and metabolism of new drugs in the body, thereby improving the efficiency and success rate of drug development.
In the field of environmental science, mass spectrometry imaging sources can help us better understand the distribution and sources of environmental pollutants. By imaging the mass spectrometry of samples such as the atmosphere, water, and soil, we are able to trace the source and propagation path of pollutants, providing a scientific basis for environmental protection. In addition, mass spectrometry imaging sources can be used for food safety testing to help monitor and identify harmful substances in food to protect public health and safety.
In the field of materials science, mass spectrometry imaging sources can help scientists understand the composition and structure of materials. By imaging the surface of a material by mass spectrometry, we are able to reveal the distribution of different elements and compounds within the material to optimize the performance and application of the material. In addition, mass spectrometry imaging sources can also be used for the study of nanomaterials, helping scientists understand the morphology and composition of nanomaterials, and supporting the development of nanotechnology.
The proliferation of mass spectrometry imaging sources will push the boundaries of scientific research and innovation. It not only helps scientists better understand complex problems in biological, environmental and materials fields, but also brings new scientific breakthroughs and business opportunities to a wide range of industries. Let's explore the infinite possibilities of mass spectrometry imaging sources and bring a better future to human society!
Jiangsu Puce Scientific Instrument Co., Ltd. Omin PI photoionization mass spectrometry imaging source is based on patented technology ( DESI/PI, i.e., charged droplet resolution/post-photoionization mass spectrometry imaging technology, patent number: ZL201810935962.4), a device for spatial molecular imaging developed by DESI/PI, can be adapted to mainstream mass spectrometers (Agilent, Thermo Fisher, Waters, et al.), spatial imaging of animal/plant tissues, surfaces of various objects, and internal molecules. Compared with traditional DESI technology, With DESI/PI, the signal intensity can be increased by 1-3 orders of magnitude, which greatly improves the detection and imaging capabilities of the DUT, especially the non-polar components.
Fields of application
Spatial Metabolomics, Pathological Diagnostics, Pharmacokinetics, Toxicology, Environmental Chemistry, Forensics, Archaeology, Paleontology.