Description
Fluorescence Spectroscopy in Analytical Chemistry: A Practical Approach provides a comprehensive overview of the fundamental, theoretical aspects and advanced applications of fluorescence spectroscopy in analytical chemistry. The book provides basic knowledge and recent advances, enabling new users to effectively apply techniques. Readers will gain significant insights into recent developments of organic and inorganic fluorophores and their potential applications in fluorescence spectroscopy for quantitative analysis of various molecules. Sections explore the challenges and potential applications, with an emphasis on understanding the theory, detection mechanisms, and new fluorophores for molecular recognition.The book is a valuable resource, practical guide, and roadmap to fluorescence spectroscopy for all chemists, analytical scientists, academics, and researchers investigating organic and inorganic fluorophore-based sensor technology for molecular and ionic species sensing. It is also an important reference for researchers, bioanalytical chemists, and technologists working on fluorescence spectroscopy.- Demonstrates the versatility and potential applications of fluorescence spectroscopy in analytical chemistry- Focuses on introducing new organic fluorophores in fluorescence spectroscopy for the recognition of molecular and ionic species- Discusses the promising applications of nanostructured materials in fluorescence spectroscopy for analyzing various analytes- Presents recent developments in fluorescence spectroscopy for analytical applications
Table of Contents
1. Introduction, basic theory, and principles2. Design and application of fluorescent organic complexes of trivalent lanthanides3. Detection mechanisms in fluorescence analytical spectroscopy4. Designing of organic fluorophores in fluorescence spectroscopy5. Carbon nanostructures in fluorescence spectroscopy for sensing applications6. Metal nanoclusters in fluorescence spectroscopy for sensing applications7. Semiconductor quantum dots in fluorescence analytical spectroscopy8. Upconversion nanoparticles integrated fluorescence spectroscopy for analytical applications9. Perovskite nanomaterials-based fluorescence spectroscopic methods for the analysis of a wide variety of molecules10. Two-dimensional nanomaterials-based fluorescence detection approaches11. Metal-organic frameworks in fluorescence spectrometry for molecular and ionic species identification12. Ratiometric fluorescence analytical strategies: Designing principles and applications13. Biomolecule-based fluorophores for molecular recognition14. Fluorescence spectroscopy for single-molecule detection15. Fluorescence spectroscopy for reactive oxygen and nitrogen species assays16. Detection of gases and volatile organic compounds by fluorescence spectroscopy17. Development of fluorescent paper strips for sensing applications18. Fluorescence lifetime spectroscopy for qualitative and quantitative analysis of molecular and ionic species19. Fluorescence microscopy for visualizing molecular and biomolecular species20. Applications of fluorescence-based techniques for microplastics and nanoplastics analysis21. Fluorescence turn-on and turn-off sensing mechanisms for metal ion detection in water22. Molecularly imprinted fluorescence probes: Syntheses, mechanisms of action and applications23. Fluorescence spectroscopy in clinical, pharmaceutical, and forensic applications24. Future prospects and challenges of fluorescence spectroscopy in analytical chemistry
