What is Scanning X-Ray Fluorescence (XRF) Microscopy? Scanning X-Ray Fluorescence (XRF) Microscopy is a powerful analytical technique that enables the visualization and quantification of the elemental ...

Mitigating matrix effects is essential for precise XRF spectrometry. Explore methods to enhance sample consistency and ...

The copper target was operated at voltages of 11 kV, 12 kV, 13 kV, and 14 kV for the electron source, and a 50 kV configuration using a molybdenum target was used as a representative example for the ...

X-Ray Fluorescence (XRF) imaging is a non-destructive analytical method that has undergone significant refinement over recent decades. By utilising the emission of secondary X-rays induced through ...

Four principal methods govern the preparation of samples for XRF analysis, each representing a different trade-off between analytical quality and speed/cost of preparation. A method involving the ...

X-ray fluorescence (XRF) offers element-selective information that can be used for the qualitative and quantitative analysis of various sample types. In this article, we explore how XRF spectroscopy ...

Researchers studying the remains of six individuals from Pompeii concluded they asphyxiated during the volcanic eruption that doomed the town nearly 2,000 years ago. The research team used portable ...

A research team introduces a fully automated, non-destructive phenotyping platform that combines X-ray fluorescence microscopy with computer vision and machine learning.

Diagram of an X-ray Reflectometry (XRR) setup: This schematic shows the arrangement of the X-ray tube, Gӧbel mirror, sample holder, and detector. The X-rays are emitted from the tube, shaped by slits ...

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