This text offers an open-learning approach to Raman spectroscopy providing detail on instrumentation, applications and discussions questions throughout the book. It provides a valuable guide to assist with teaching Raman spectroscopy which is gaining attention in (analytical) chemistry, and as a consequence, teaching programs have followed.

Preface xiii Acknowledgements xv Acronyms, Abbreviations and Symbols xvii Introduction to Raman spectroscopy xix 1 Theoretical Aspects 1 1.1 Classical Approach 1 1.2 Selection Rule 7 1.3 Energy Levels and Group Frequencies 13 1.4 Raman Intensity 19 1.5 Raman Bandwidth 35 1.6 The General Appearance of a Raman Spectrum 37 1.7 Summary 38 Intermezzo 1.1 The Harmonic Oscillator and the Position of the Vibrational Energy Levels 6 Intermezzo 1.2 The Anharmonic Oscillator and the Position of Vibrational Energy Levels 11 Intermezzo 1.3 Raman Intensity Annotations 30 2 Interferences and Side-effects 39 2.1 Absorption 40 2.2 Fluorescence 40 2.3 Thermal Effects, Photodecomposition and Laser Ablation 43 2.4 Ambient Light and Background Radiation 44 2.5 Summary 44 3 Enhancement of the Raman Signal 47 3.1 Resonance Raman (RR) Spectroscopy 48 3.2 Surface-Enhanced Raman Spectroscopy (SERS) 48 3.2.1 Working Principle of SERS 49 (a) Chemical Enhancement 49 (b) Field Enhancement 51 3.2.2 Preparation of SERS Substrates 53 (a) Colloids 54 (b) Sputtering 55 (c) Electrochemical Production 55 (d) Etching 56 3.2.3 SERS Active Molecules 56 3.2.4 Advantages and Disadvantages of SERS 57 3.3 Summary 59 Intermezzo 3.1 The Analysis of Organic Dyes by SERS 58 4 Raman Instrumentation 61 4.1 Lasers 62 4.1.1 Classification According to Safety Category 64 4.1.2 The Operating Principle of the Laser 65 4.1.3 Lasers for Raman Spectroscopy 71 4.2 Detectors 74 4.2.1 Single-Channel Detectors 75 4.2.2 Multi-Channel Detectors 76 4.2.3 Charge-Coupled Device (CCD) Detectors 76 4.2.4 Semi-conductor Detectors 80 4.3 Filters 81 4.4 Dispersion Systems 83 4.4.1 Systems Based on Diffraction of Light 83 4.4.2 Fourier-Transform (FT-) Systems 86 4.5 Components for Transportation of Light 88 4.6 Sample Chambers and Measurement Probes 91 4.7 Noise in Raman Spectroscopy 95 4.7.1 Noise Originating from the Sample: σs 96 4.7.2 Noise Originating from the Raman Instrument: σi 98 4.7.3 Noise Originating from the Signal Processing: σp 99 4.8 Summary 99 Intermezzo 4.1 The Helium-Neon laser 69 5 Raman Spectroscopy in Daily Lab-life 101 5.1 Calibration of a Raman Spectrometer 102 5.1.1 X-Axis Calibration 102 5.1.2 Y-Axis Calibration 105 5.2 Raman Spectral Post-processing 108 5.2.1 Digital Filters 109 5.2.2 Scaling 110 5.2.3 Deconvolution 112 5.2.4 Baseline Corrections 113 5.3 Interpretation of Raman Spectra of Organic Molecules 116 5.3.1 Raman Spectra of Alkanes and Cycloalkanes 120 5.3.2 Raman Spectra of Alkenes and Cycloalkenes 125 5.3.3 Raman Spectra of Aromates 129 5.4 Interpretation of Raman Spectra of Inorganic Molecules 131 5.5 Quantitative Aspects of Raman Spectroscopy 134 5.6 Fingerprinting and Spectral Searching Algorithms 137 5.7 Raman Mapping and Imaging 141 5.8 Combination with Other Techniques 145 5.9 Summary 147 Intermezzo 5.1 Micro-Raman Spectroscopy in Microbiology 107 Intermezzo 5.2 Raman Spectroscopy in a Forensics Laboratory 117 Intermezzo 5.3 Pigment Analysis with Raman Spectroscopy 132 Intermezzo 5.4 Detection of Counterfeit Medicines with Raman Spectroscopy 136 Intermezzo 5.5 Exobiology: Raman Spectroscopy Helps the Search for Life on Mars 139 Intermezzo 5.6 Direct Analysis of Precious Art Objects 144 Responses to Questions 149 Bibliography 153 Glossary of Terms 155 Index 157

Raman spectroscopy is a molecular spectroscopic technique, which in recent years has attracteda lot of attention as a versatile analytical technique, with applications in a broad range of research areas. Practical Raman Spectroscopy: An Introduction provides the reader with: background information on the technique,an overview of theoretical aspectsexplanations of possible interferences and enhancement effects. The author walks the reader through the key components of common Raman spectroscopy instrumentation and explains the basic principles of post-processing of Raman spectra, mathematical filters, spectral interpretation, quantitative aspects, searching algorithms,Raman mapping, etc. The text: is enhanced with practical examples from research, illustrating the broadfield of applicationsincludes Questions and Discussion Topics, where the reader can evaluatetheir understandingprovides a comprehensive bibliography to guide the reader to more specialized texts and sources. Rather than overwhelming the reader in mathematical discussions and equations, the author provides an intuitive feeling for different concepts in Raman spectroscopy. Thus, this book aims to provide an introduction to students as well as to the occasional user, who wants to gain a broader knowledge of the technique.