Thermo Fisher Scientific – X-Ray Photoelectron Spectroscopy (XPS)

Thermo Fisher Scientific – X-Ray Photoelectron Spectroscopy (XPS)

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With more than 50 years of innovation and leadership, XPS surface analysis instruments from Thermo Fisher Scientific enable customers to find meaningful answers to questions that accelerate breakthrough discoveries, increase productivity, and ultimately change the world. For the analysis of surfaces and thin-film structures, our line of XPS spectrometers features high performance, easy operation with automation, and multi-technique integration for material science and R&D labs. 

Find the XPS surface analysis instrument that fits your material analysis!

Thermo Scientific™ Nexsa™ Surface Analysis System is a high-performance X-ray Photoelectron Spectrometer, designed to integrate other analytical techniques whilst maintaining a high-throughput workflow. With unique options such as the Thermo Scientific™ MAGCIS™ dual-mode ion source and the Thermo Scientific™ iXR™ Raman Spectrometer, the Nexsa system is ready for the toughest surface analysis problems.

Thermo Scientific™ ESCALAB Xi+™ XPS Microprobe is a high-performance X-ray Photoelectron Spectrometer, designed to integrate other analytical techniques and advanced sample preparation options. With excellent energy resolution, options such as the Thermo Scientific MAGCIS dual mode ion source, and fast XPS imaging, the ESCALAB Xi+ is ready for your research!

Thermo Scientific™ K-Alpha™ XPS System is a high-performance X-ray Photoelectron Spectrometer, designed to be easy to use and fast for a high-throughput workflow. K-Alpha is supplied with everything necessary for XPS analysis, including an ion source for depth profiling. 

For an in-depth look into our surface analysis capabilities and resources, visit our website.
 

Analysis of Metal Components Using XPS

Analysis of Metal Components Using XPS
Using XPS to Map the Work Function of a Damaged Solar Cell

Using XPS to Map the Work Function of a Damaged Solar Cell
Using Argon Cluster Ions to Prevent Surface Modification

Using Argon Cluster Ions to Prevent Surface Modification
Using an XPS System to Investigate Printed Paper

Using an XPS System to Investigate Printed Paper
Characterization of 2D Materials with Multi-Technique Surface Analysis

Characterization of 2D Materials with Multi-Technique Surface Analysis
Why are These 3 Elements in the Surface Analysis Spotlight?

Why are These 3 Elements in the Surface Analysis Spotlight?
Gaining Insights into the Analysis of 2D Materials Using the Thermo Scientific Nexsa Surface Analysis System

Gaining Insights into the Analysis of 2D Materials Using the Thermo Scientific Nexsa Surface Analysis System
Using a Surface Analysis System to Determine Layer Structures of an Organic FET Device

Using a Surface Analysis System to Determine Layer Structures of an Organic FET Device
Plasma-Modified Polymer Surfaces - How to Identify their Structures

Plasma-Modified Polymer Surfaces - How to Identify their Structures
Using XPS, REELS, and UPS for the Surface Characterization of Organic LED Material

Using XPS, REELS, and UPS for the Surface Characterization of Organic LED Material
Analyzing Electrode Materials for Lithium Ion Batteries

Analyzing Electrode Materials for Lithium Ion Batteries
Coverage, Composition and Band Gap Analysis of ALD-Grown Ultra Thin Films

Coverage, Composition and Band Gap Analysis of ALD-Grown Ultra Thin Films
XPS Image Acquisition in Minutes Using SnapMap

XPS Image Acquisition in Minutes Using SnapMap
Advantages of Coincident XPS-Raman in the Analysis of Mineral Oxides Species

Advantages of Coincident XPS-Raman in the Analysis of Mineral Oxides Species
Understanding Graphene and its Properties Through X-Ray Photoelectron Spectroscopy

Understanding Graphene and its Properties Through X-Ray Photoelectron Spectroscopy
Hydrogen and Chemical Quantification of an Organic Coating

Hydrogen and Chemical Quantification of an Organic Coating
Characterizing SEIs on Tin-Based Nano-Composite Electrode Films for Li-ion Batteries

Characterizing SEIs on Tin-Based Nano-Composite Electrode Films for Li-ion Batteries
Investigating Surface Treatment of Fabrics with XPS

Investigating Surface Treatment of Fabrics with XPS
Chemical State Mapping of Polymers with XPS

Chemical State Mapping of Polymers with XPS
Identifying the Elemental and Chemical Composition of Stained Areas on Split Steel Bearings

Identifying the Elemental and Chemical Composition of Stained Areas on Split Steel Bearings
Investigating Changes in Elemental Composition of a Hard Disk Platter from the Surface Down to the Substrate

Investigating Changes in Elemental Composition of a Hard Disk Platter from the Surface Down to the Substrate
Analyzing the Interface Between a Dry Film Photo-Resist Layer and its Protective Polypropylene Layer with XPS

Analyzing the Interface Between a Dry Film Photo-Resist Layer and its Protective Polypropylene Layer with XPS
Using X-Ray Photoelectron Spectroscopy to Characterize Low-Emissivity Glass Coatings

Using X-Ray Photoelectron Spectroscopy to Characterize Low-Emissivity Glass Coatings
Liquid Phase Photoelectron Spectroscopy Analysis of Chemical Bonding States in an Ionic Liquid

Liquid Phase Photoelectron Spectroscopy Analysis of Chemical Bonding States in an Ionic Liquid
Using XPS to Evaluate the Elemental and Chemical Composition of Wear Resistant Coatings

Using XPS to Evaluate the Elemental and Chemical Composition of Wear Resistant Coatings
Analyzing the Elemental and Chemical Composition of Contact Lens Samples

Analyzing the Elemental and Chemical Composition of Contact Lens Samples
Using XPS for the Spectroscopic Analysis of Solid Oxide Fuel Cell Material

Using XPS for the Spectroscopic Analysis of Solid Oxide Fuel Cell Material
Using the K-Alpha for the XPS Characterization of Thin Gold Layers on Steel Separators for Fuel Cell Applications

Using the K-Alpha for the XPS Characterization of Thin Gold Layers on Steel Separators for Fuel Cell Applications
Characterizing a Membrane Electrode Assembly from a Proton Exchange Fuel Cell Using XPS

Characterizing a Membrane Electrode Assembly from a Proton Exchange Fuel Cell Using XPS
Using XPS for the Characterization of ‘Click’ Surface Chemistry

Using XPS for the Characterization of ‘Click’ Surface Chemistry
Investigating the Surface Chemical Composition of Metal Oxide Catalysts

Investigating the Surface Chemical Composition of Metal Oxide Catalysts
Using X-Ray Photoelectron Spectroscopy (XPS) to Investigate the Oxidation of a Cobalt-Based Catalyst

Using X-Ray Photoelectron Spectroscopy (XPS) to Investigate the Oxidation of a Cobalt-Based Catalyst
Depth Profile Analysis of Thin Film Solar Cells by XPS

Depth Profile Analysis of Thin Film Solar Cells by XPS
How can you Advance your Research Efficiently with the New ESCALAB QXi Microprobe?

How can you Advance your Research Efficiently with the New ESCALAB QXi Microprobe?
Leveling Up Surface Analysis and XPS Performance with Nexsa G2 System

Leveling Up Surface Analysis and XPS Performance with Nexsa G2 System
Can Surfaces Help in the Fight Against COVID-19 and Other Viruses?

Can Surfaces Help in the Fight Against COVID-19 and Other Viruses?
1+1=3: How a Combination of XPS and Raman Makes a Difference for Your Materials Analysis

1+1=3: How a Combination of XPS and Raman Makes a Difference for Your Materials Analysis
Studying 2D Materials Using Thermo Scientific Nexsa X-Ray Photoelectron Spectrometer (XPS) System

Studying 2D Materials Using Thermo Scientific Nexsa X-Ray Photoelectron Spectrometer (XPS) System
A Video to Show 50 Years of XPS

A Video to Show 50 Years of XPS
Solving Materials Problems with XPS

Solving Materials Problems with XPS
The Nexsa G2 System

The Nexsa G2 System
The Nexsa G2 System: An Introduction with Tim Nunney

The Nexsa G2 System: An Introduction with Tim Nunney
XPS Overview with Robert Palgrave of UCL

XPS Overview with Robert Palgrave of UCL

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