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The imaging method known as photo-induced force microscopy (PiFM) involves raster-scanning a sharp point across the material. Due to interactions between the sample and probe brought on by light, the tip feels an additional force when lit.
The oscillation characteristics of the cantilever can be used to extract this photo-induced force, which is in the pN range or less, allowing photo-induced force maps to be created.
In terms of imaging capabilities and applications, the PiFM technology has developed into a practical nano-spectroscopic tool.
The Global Photo-Induced Force Microscope market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
VistaScope with Infrared Photo-induced Force Microscopy (IR PiFM), an advanced AFM device developed and offered by Molecular Vista, offers nanoscale imaging and spectroscopy.
AFM and IR spectroscopy are combined into PiFM, a single instrument that can measure topography and chemical signatures at the nanoscale scale and is universally applicable to a variety of organic and inorganic materials.
They feel that with their unique technology, Molecular Vista is at the forefront of one of the AFM market’s fastest-growing subsectors.
They are happy to be a part of Molecular Vista, which Sung Park and the gifted management team have built into a cutting-edge business with an exciting future.
AFM enables measurements of a sample’s mechanical, electrical, and other physical properties as well as nanoscale topography pictures and other measurements.
Then that PiFM technology has been added, it can give researchers knowledge of chemical and molecular composition in addition to geophysical data.
The Park Systems investment will enable them to considerably increase the functionality of their technology-driven IR PiFM platform, which will close a significant gap in nanoscale molecular and chemical investigation.
