Optical technologies used in screens and advanced systems like solar cells and photonic devices play a significant role in our daily lives. Research in materials science is increasing with the rising demand for high-performance, eco-friendly materials.
This rapid growth drives the need for sophisticated tools to explore how materials interact with light across the ultraviolet (UV), visible (Vis), and near-infrared (NIR) spectrums.
UV-Vis-NIR microspectroscopy has become a cornerstone technique, offering the ability to profile materials with high spatial and spectral resolution. Researchers can gain valuable insights into structural changes, compositional variations, and nanoscale properties that impact device performance by analyzing how materials absorb and emit light.
Discover how advanced UV-Vis-NIR microspectroscopy drives innovation in material characterization and transforms next-generation optical device development.
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eBook Highlights
- Comprehensive overview of UV-Vis-NIR microspectroscopy and its applications in materials research
- Key insights into materials like:
- Actinides, lanthanides, and perovskites
- Liquid crystals, OLEDs, and quantum dots
- Case studies covering:
- Thin films, single crystals, and their optical properties
- Effects of dopants and local defects on material performance
- Guidance on integrating microspectroscopy in material development, from initial optimization to quality assurance
This eBook by CRAIC Technologies provides the foundational knowledge needed to harness the full potential of UV-Vis-NIR microspectroscopy for innovative materials characterization.
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This information has been sourced, reviewed and adapted from materials provided by CRAIC Technologies.
For more information on this source, please visit CRAIC Technologies.