- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
An expert collection of case studies, real-world examples, and up-to-date info about quantitative spectroscopic methods
In Practical Quantitative Vibrational and Electronic Spectroscopy: A Guide For Developing, Optimizing, and Validating Procedures, experienced spectroscopist Deborah Peru and an expert team of contributors deliver an up-to-date discussion of the development of the quantitative spectroscopic methods used for measuring samples in the ultraviolet, visible, near IR, and mid IR regions of the spectrum.
The book presents and reviews statistical considerations, method development, and standard quantitative techniques involving regression and other approaches. This coverage explores many of the techniques used in industry and academia for extracting quantitative information from spectra. You'll discover how to develop and implement spectroscopic methods for analysis in products using commercial instruments and software.
Readers will also find:
A thorough introduction to real-world issues in spectroscopy, including expeditious development timelines and procedure lifecycle management
Comprehensive explorations of the fundamentals of quantitative spectroscopy
Practical discussions of quantitative applications and statistical analysis of spectral data
Select examples of the real-world implementation of spectroscopic technologies
Perfect for scientists, process engineers, and managers supervising the development and use of spectroscopic instruments, Practical Quantitative Vibrational and Electronic Spectroscopy will also benefit students interested in this rapidly developing collection of technologies.
Contents
List of Contributors
Preface
Part I: Fundamentals of Quantitative Spectroscopy
Chapter 1: An Introduction to Quantitative Spectroscopy
Chapter 2: Types of Sampling and Measurement Errors
Chapter 3: Procedure Design and Data Analytics
Chapter 4: Types of Quantitative Methods
Chapter 5: Variable Selection Strategies
Chapter 6: Preprocessing of Spectral Data
Chapter 7: Procedure Validation and Lifecycle Management
Part II: Quantitative Applications and Statistical Analysis of Spectral Data
Chapter 8: Practical Considerations and Benefits of Using Vibrational Spectroscopy in Process Environments
Chapter 9: Simultaneous Absorbance and Fluorescence Instrument Measuring and Analysis Principles for Quantitative Analysis
Chapter 10: Analysis of Grape and Wine Quality Features with Simultaneous Absorbance and Fluorescence Technology
Chapter 11: Surface-Enhanced Raman Spectroscopy Theory
Chapter 12: Detecting Fentanyl in Patient Samples Using Surface-Enhanced Raman Spectroscopy
Chapter 13: Detection of Foodborne Pathogens on Surfaces and in Food by SERRS
Chapter 14: Development and Validation of Handheld Vibrational Spectroscopy Methods for the Quantitation of Active Ingredients in Pharmaceutical Solid Dosage Forms
Chapter 15: Statistics of Microplastics Analysis: How to Achieve Healthy Statistical Representation
Chapter 16: Material Sparing Approaches for Spectroscopic PAT Method Development in the Pharmaceutical Industry
Chapter 17: Development and Implementation of a NIR Calibration Model to Determine an Active Pharmaceutical Ingredient in a Commercial Film Coating Process.
Part III: Real-World Implementation Vignettes
Chapter 18: Automating the Spectrometer Calibration and Maintenance Processes
Chapter 19: Considerations When Selecting a Sample Interface
Chapter 20: Continuous Performance Qualification Systems for On-line Near-Infrared (NIR) Analyzers Used in Fuels Blending Operations
Index
