Ondax, Inc. is the leader in high-performance, low-frequency/THz-Raman® Spectroscopy systems and wavelength stabilized laser sources for a wide range of spectroscopy, industrial, scientific, defense, and life science applications. Ondax patented THz-Raman® spectroscopy systems combine chemical composition and structural analysis into one instrument. Fast, easy capture of the entire Raman spectrum, including the complete chemical fingerprint along with both Stokes and anti-Stokes low-frequency Raman signals down to ~5 cm-1, improves sensitivity and reliability for polymorph identification and screening, crystallization and phase monitoring, semiconductor and 2D materials characterization, explosives forensics, and advanced materials analysis. Our SureLock™ and CleanLine™ Series single frequency lasers set the price-performance standard for Raman laser sources.
Ondax products are all U.S. manufactured at our Southern California headquarters in Monrovia, California, just 10 miles east of Pasadena and about 30 miles from the Los Angeles airport.
Ondax, Inc.
850 E. Duarte Road
Monrovia, CA 91016
TELEPHONE
(626)-357-9600
FAX
(626) 513-7494
E-MAILsales@ondax.com
WEB SITEwww.ondax.com
YEAR FOUNDED
2000
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.
Researchers Develop Adaptive Gap-Tunable SERS Device
April 24th 2024In a new study, researchers from Ulsan National Institute of Science and Technology and Pohang University of Science and Technology presented a new surface-enhanced Raman spectroscopy (SERS) device, improving gap plasmon resonance.