Spectroscopic cryostat (small low-temperature sample chamber) for infrared spectroscopy. Infrared absorption spectra can be easily measured at low temperatures.
- Compatible with both solution and solid - Two-liquid mixing & reaction measurement - Temperature control with a unit of -0.1°C - Compact and lightweight - No vacuum pump required
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basic information
- The measurement will be conducted using the transmission method set up in the FT-IR sample chamber. - The measurement is performed using a dedicated sample holder set up in the FT-IR sample chamber with the transmission method. - For solution samples, two-liquid mixing is possible at low temperatures, allowing for the measurement of the reaction process (a separately purchased low-temperature IR-compatible mixer cell and delivery device from our company are required). - The transmission windows can be selected from CaF2, MgF2, or KRS-5. - Cooling is achieved using a liquid nitrogen flow system. - It is an atmospheric-type cryostat that does not require vacuum operation. - The main unit is very compact and can be easily installed on FT-IR systems from various manufacturers by attaching an adapter. *Depending on the device, the lid of the sample chamber may not close.
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Company information
Unisoku was established in 1974 with the aim of becoming a creator of unique measuring instruments. It is a manufacturer that primarily develops and sells its own ultra-high vacuum scanning probe microscopes (SPM) to universities, public institutions, and private companies and research institutes. Over the years, it has developed and commercialized advanced measuring instruments such as high-speed spectroscopic measurement devices and scanning tunneling microscopes, delivering them to universities and research institutions both domestically and internationally, and its technological content has received high praise from researchers in the field of basic research. In recent years, scanning probe microscopes have significantly improved in performance and multifunctionality, particularly as a means of observing sample surfaces at the atomic level. Their applications are expanding mainly from the field of physics to chemistry and bio-related fields, making them indispensable tools in nanotechnology and nanoscience.