- Atomic and fluorescence spectrometry
Applied studies that employ or develop methods using techniques based
on atomic absorption/emission spectrometry and fluorescence studies as
tools for quantitative analysis in various samples, as well as
advancements in these techniques, such as real-time process monitoring.
Additionally, studies focused on sample preparation for these
techniques.
- Plasma-based techniques
Development and application of analytical techniques based on plasma.
Additionally, studies focused on sample preparation for these
techniques.
- Techniques based on X-ray, Raman, and Mössbauer
Studies involving the development of methods using X-ray absorption,
emission, scattering, and diffraction techniques. Research applying
X-ray-based techniques in areas such as environmental sciences,
materials science, life sciences, nanotechnology, and related fields.
Studies focused on the use of Raman spectroscopy for the quantification
of various samples, including analyses using Raman in its original form
as well as variations such as confocal Raman and SERS. Additionally,
research directed toward advancements in these techniques and sample
preparation for their application.
- Synchrotron-radiation based techniques
Studies across all scientific fields that utilize synchrotron
light-based techniques. The topic encompasses both methodological and
applied research. Additionally, studies focused on sample preparation
for these techniques.
- Techniques based on SIMS and nanoSIMS
Development of methods and applications of techniques based on
secondary ion mass spectrometry in interdisciplinary areas. Studies
involving sample preparation and applictions for various matrices.
- Hyphenated/multimodal techniques
Development and advancements of hyphenated and multimodal techniques
for research in interdisciplinary areas. Additionally, studies focused
on sample preparation for these techniques.
- Chemometrics in spectrometry
Studies involving the use of chemometric tools for the development,
validation, and classification of methods derived from spectrometric
analyses.
- Trends and new approaches
Novel and innovative applications in the development and use of
spectrometric techniques for the analysis of various materials, such as
chemical, biological, pharmaceutical, environmental, geological,
industrial, and others. Additionally, studies focused on sample
preparation for these techniques.
