X-ray microanalysis of picoliter microdroplets: Improvement of the method for quantitative X-ray microanalysis of samples of biological fluids

The analysis of bulk frozen-hydrated biological samples has developed now to a level where practical application of the technique is possible. Provided the sample is carefully coated with a conductive metal, the development of a space charge capable of causing a significant distortion of the electro

## Abstract The nasal fluid is an easily accessible form of airway surface liquid. The objective of this study was to find a technically easy and reproducible method for sampling and analysis of this fluid. In a pilot study, several methods to carry out X‐ray microanalysis of sub‐microliter droplet

## Abstract Scanning electron microscopy combined with energy‐dispersive X‐ray spectrometry is particularly suited to characterizing morphology and elemental composition of individual microparticles. Although not straightforward, quantitative X‐ray microanalysis of low‐__Z__‐containing particles is

The invariant embedding principle was applied to obtain closed analytical expressions of several magnitudes of interest in electron probe microanalysis [ ionization distribution function, /(qz) backscattering probability, etc. ] . This approach permits one easily to obtain solutions for a model whic