Offer fully automated multi-technique analysis along with high throughput without sacrificing research grade results with the Thermo Scientific™ Nexsa™ X-Ray Photoelectron Spectrometer (XPS) System. Integration of multiple analytical techniques like ISS, UPS, REELS and Raman allows users to conduct true correlative analysis, unlocking the potential for further advances in microelectronics, ultra-thin films, nanotechnology development and many other applications.
The Nexsa spectrometer delivers flexibility to maximize the potential of your material. Flexibility in the forms of multiple-integrated technique options for true correlative data analysis and high throughput while maintain research quality results.
Powerful Performance from Standard Features:
High performance spectroscopy
Dual-mode ion source for expanded depth profiling capabilities
Tilt Module for ARXPS measurements
Avantage Software for instrument control, data processing, and reporting
Small spot analysis
Optional Upgrades: Add any of the integrated and fully automated techniques to your analysis. Run at the touch of a button.
ISS: Ion scattering spectroscopy is a technique in which a beam of ions is scattered by a surface
UPS: Ultraviolet photoelectron spectroscopy refers to the measurement of kinetic energy spectra of photoelectrons emitted by molecules which have absorbed ultraviolet photons, in order to determine molecular orbital energies in the valence region
Raman: Spectroscopic technique used to in chemistry to provide a structural fingerprint
REELS: Reflection electron energy loss spectroscopy
Bring sample features into focus with SnapMap's optical view. The optical view helps you pint point areas of interest quickly while developing a fully focused XPS image to further define your experiment.
1. X-rays illuminate a small area on the sample.
2. Photo electrons from that small area are collected and focused into the analyzer
3. Spectra are continually acquired as the stage is moving
4. Stage position monitored throughout data acquisition, positions used to generate SnapMap