Kaiser Optical Systems Inc., an Endress+Hauser company, is recognized as a world leader in the design and production of Raman analyzers and components for spectroscopy. For the past 20 years, we have applied the measurement principles of Raman spectroscopy to manufacturing processes, and have proven successes in chemical, life sciences, and polymer applications. Kaiser provides optimized Raman solutions that incorporate sampling optics, GLP/GMP certified hardware and software specific to the needs of research, analytical, and process customers. We value providing the best products, service, and support. Our holistic approach helps customers improve product quality, save resources and successfully meet new scientific, logistical, or regulatory challenges.
Raman spectroscopy and microscopy
We serve the chemical, life sciences, environmental, food & beverage, and oil & gas industries in applications from laboratory research to large-scale manufacturing.
Our RamanRxn Systems(tm) suite of Raman analyzers includes the ATEX certified RamanRxn3(tm) process analyzer for classified installations, the RamanRxn2(tm) multi-channel analyzer, the RamanRxn2(tm) Hybrid analyzer for large and small area solids and liquids quantitative Raman, the RamanRxn4(tm) gas-phase process analyzer, and the Raman WorkStation(tm) featuring Kaiser's revolutionary, fast, quantitative PhAT technology.
A new two-story facility is slated to open mid-2017 and will more than double the manufacturing, quality, and training floor space. Our new space will allow us to produce higher volumes of Kaiser's Raman analyzers and phase-optimized probes, while maintaining the high quality standards our customers expect.
371 Parkland Plaza
Ann Arbor, MI 48103
TELEPHONE
(734) 655-8083
FAX
(734) 665-8199
WEB SITE
YEAR FOUNDED
1979
Getting accurate IR spectra on monolayer of molecules
April 18th 2024Creating uniform and repeatable monolayers is incredibly important for both scientific pursuits as well as the manufacturing of products in semiconductor, biotechnology, and. other industries. However, measuring monolayers and functionalized surfaces directly is. difficult, and many rely on a variety of characterization techniques that when used together can provide some degree of confidence. By combining non-contact atomic force microscopy (AFM) and IR spectroscopy, IR PiFM provides sensitive and accurate analysis of sub-monolayer of molecules without the concern of tip-sample cross contamination. Dr. Sung Park, Molecular Vista, joined Spectroscopy to provide insights on how IR PiFM can acquire IR signature of monolayer films due to its unique implementation.