Evaluation of quantitative procedures for X-ray microanalysis of environmental particles

A review of selected highlights of x-ray Ñuorescence spectrometry applied to the analysis of micro-samples and/or for localized area analysis is presented from a historical perspective. A look towards the future indicates broader commercialization of laboratory instrumentation for microanalysis and

## Abstract Using quantitative X‐ray microanalysis in combination with CeCl~3~‐based cytochemical staining of hydrogen peroxide (H~2~O~2~) we have developed a new solution for quantification of H~2~O~2~ at the subcellular level. Quantitative X‐ray microanalysis of plastic‐embedded leaves of __Popul

## Abstract Construction of artificial organs and tissues by tissue engineering is strongly dependent on the availability of viable cells. For that reason, the viability and the physiological status of cells kept in culture must be evaluated before the cells can be used for clinical purposes. In th

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

The basic principles and procedures for performing accurate X-ray microanalyses on semiconductor materials as well as the differences and advantages of EDS (energy-dispersive spectroscopy) and WDS (wavelengthdispersive spectroscopy) are presented. Many of the techniques discussed are the result of e

## Abstract A technique, using Nuclepore polycarbonate membrane filters as a containing medium for very small volumes of ionic standard solutions, to produce homogeneous ice standards is described. The standards are suitable for use in a scanning electron microscope. The relationship between elemen