Thermo Fisher Scientific Inc. (NYSE: TMO) is the world leader in serving science, with revenues of more than $20 billion and approximately 70,000 employees globally. Our mission is to enable our customers to make the world healthier, cleaner and safer. We help our customers accelerate life sciences research, solve complex analytical challenges, improve patient diagnostics, deliver medicines to market and increase laboratory productivity. Through our premier brands – Thermo Scientific, Applied Biosystems, Invitrogen, Fisher Scientific and Unity Lab Services – we offer an unmatched combination of innovative technologies, purchasing convenience and comprehensive services. Visit www.thermofisher.com.
For over 80 years, their Ecublens site in Switzerland has been a worldwide supplier of spectrochemical instrumentation to such major industries as steel, transportation, cement, construction, food, pharmaceuticals, chemicals, academic research, petroleum and electronics. They offer unsurpassed capabilities in the areas of optical emission (OE), X-ray fluorescence (XRF), X-ray diffraction (XRD) and automation of spectrometers. Their product line includes:
Determining Crystallite Size in Pt/C Catalysts with XRD
Direct Reduced Iron and Hot Briquetted Iron Analysis
Investigating Acetaminophen with X-Ray Diffraction (XRD)
Investigating Nickel on Silicon Thin Films with X-Ray Diffraction
Investigating Ibuprofen with X-Ray Diffraction (XRD)
Using EXRD and EDXRF to Investigate a CIGS Solar Cell
Applying XRF Spectrometry to Free Lime Analysis in Clinkers
Analyzing Ilmenite Ore Samples with XRD
Using X-Ray Fluorescence Spectrometers for Total Oxide X-Ray Analysis
Investigating Mesoporous MCM-41 Material with XRD
Analyzing Air Filters with EDXRF Spectrometers
Measuring Air Quality with Energy Dispersive X-Ray Fluorescence (EDXRF)
Using XRF Mapping for Analyzing Minerals and Metals
Using an EDXRF Spectrometer to Analyze Gold Jewelry
Using XRF and XRD to Determine Limestone in Cement
X-Ray Fluorescence Analysis for Elemental Analysis
Using XRF Techniques for Quantitative Analysis of Clinker Phases
Utilizing X-Ray Fluorescence for Glass Analysis
Using XRF to Analyze Trace Elements in Polymers
Analyzing Gemstones with Energy Dispersive X-Ray Fluorescence (EDXRF)
Utilizing XRF for the Analysis of Fuel Oils
Using OES for the Analysis of Steel Micro Inclusions
ARL EQUINOX 3000 XRD for Research
ARL 9900—Combined XRD and XRF Spectrometer
ARL EQUINOX 100 for QA/QC and Academic XRD
Advanced WDXRF Spectrometer — ARL PERFORM’X
ARL QUANT’X Energy-Dispersive X-Ray Fluorescence Spectrometer
ARL OPTIM’X — WDXRF Spectrometer
ARL EQUINOX 1000 X-Ray Diffractometer
ARL SMS-3500-Automated OES and XRF Analyzer
Powerful Benchtop XRD Analysis-ARL EQUINOX 1000 XRD
Inclusion Analysis in Steel with the ARL iSpark OES Spectrometer
Secure Your Laboratory Data: SolstiX XRD Software
Automation for Single or Twin OES or XRF: ARL SMS-3300
QA-QC and Academic X-Ray Diffractometer-ARL EQUINOX 100
Combined XRD and XRF Spectrometer ARL 9900
XRF Spectrometer – ARL PERFORM’X from Thermo Scientific
ARL™ SMS-2300 Robotics-Based Automation for OES or XRF
XRF Spectrometer ARL OPTIM’X from Thermo Scientific
The Thermo Scientific™ ARL™ EQUINOX 3000 X-ray Diffractometer for research enables accurate measurements.
KLA’s Filmetrics F40 allows you to transform your benchtop microscope into an instrument to measure thickness and refractive index.
This product profile describes the properties and applications of the ProMetric® I-SC Solution Imaging Colorimeter.
Dr. David Dung
We spoke with University of Bonn spin-off Midel Photonics, a start-up company whose laser beam shaping technology is hoping to sharpen up the laser industry.
Matthias Sachsenhauser, Ph.D.
Following Laser World of Photonics 2022, we spoke with Matthias Sachsenhauser from Hamamatsu Photonics about the role of laser-driven light sources in the future of the photonics sector.
Dr. Keith Paulsen
AZoOptics speaks to Dr. Keith Paulsen about the importance of breast cancer detection and the introduction of his team's deep-learning algorithm that associates spatial images of tissue optical properties with optical signal patterns measured during an imaging experiment or patient exam.