Encyclopedia of Spectroscopy and Spectrometry 2nd Edition by John Lindon ISBN 978-0123744173 0123744172

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Product details: 

ISBN 10:  0123744172

ISBN 13: 978-0123744173

Author:  John C. Lindon

The Second Edition of the Encyclopedia of Spectroscopy and Spectrometry pulls key information into a single source for quick access to answers and/or in-depth examination of topics. “SPEC-2” covers theory, methods, and applications for researchers, students, and professionals―combining proven techniques and new insights for comprehensive coverage of the field. The content is available in print and online via ScienceDirect, the latter of which offers optimal flexibility, accessibility, and usability through anytime, anywhere access for multiple users and superior search functionality.

No other work gives analytical and physical (bio)chemists such unprecedented access to the literature. With 30% new content, SPEC-2 maintains the “authoritative, balanced coverage” of the original work while also breaking new ground in spectroscopic research.

Incorporates more than 150 color figures, 5,000 references, and 300 articles (30% of which are new), for a thorough examination of the field
Highlights new research and promotes innovation in applied areas ranging from food science and forensics to biomedicine and health
Features a new co-editor: David Koppenaal of Pacific Northwest National Laboratory, Washington, USA, whose work in atomic mass spectrometry has been recognized internationally

Table of contents: 

1. Atomic Absorption Theory
2. Atomic Emission and Fluorescence Theory
3. Atomic Absorption Methods and Instrumentation
4. Atomic Emission Methods and Instrumentation
5. Atomic Fluorescence Methods and Instrumentation
6. Atomic Spectroscopy: Forensic Science Applications
7. Biomedical Applications of Atomic Spectroscopy
8. Electronic Components Applications of Atomic Spectroscopy
9. Multivariate Statistical Methods
10. Quantitative Analysis
11. Spectroscopic Methods in Drug Quality Control and Development
12. Spectroscopy for Process Analytical Technology (PAT)
13. Spectroscopy in Biotechnology Research and Development
14. Mössbauer Spectroscopy Theory
15. Photoelectron Spectroscopy
16. Zero Kinetic Energy Photoelectron Spectroscopy Theory
17. Food and Dairy Products Applications of Atomic Spectroscopy
18. Microwave and Radiowave Spectroscopy Applications
19. Forestry and Wood Products Applications of Atomic Spectroscopy
20. Geology and Mineralogy Applications of Atomic Spectroscopy
21. Chiroptical Spectroscopy: Emission Theory
22. Chiroptical Spectroscopy: General Theory
23. Exciton Coupling
24. Colorimetry Theory
25. Ellipsometry
26. Fluorescence Polarization and Anisotropy
27. Fluorescence Theory
28. Biochemical Applications of Fluorescence Spectroscopy
29. Hole-Burning Spectroscopy
30. Laser Spectroscopy Theory
31. Luminescence Theory
32. Magnetic Circular Dichroism Theory
33. Biomacromolecular Applications of Circular Dichroism and Optical Rotatory Dispersion (ORD)
34. Nonlinear Optical Properties
35. Symmetry in Spectroscopy: Effects
36. Optical Spectroscopy: Linear Polarization Theory
37. Photoacoustic Spectroscopy Theory
38. Scattering Theory
39. Surface Plasmon Resonance Theory
40. Circular Dichroism Spectrometers
41. Colorimetry Methods
42. Fluorescent Molecular Probes
43. Hole-Burning Spectroscopy Methods
44. Linear Dichroism Instrumentation
45. Optical Frequency Conversion
46. ORD and Polarimetry Instruments
47. Particle Light Scattering Methods and Applications
48. Photoacoustic Spectroscopy Methods and Instrumentation
49. Reflectance Methods and Applications
50. Scanning Near-Field Optical Microscopy and Related Techniques
51. Spectroelectrochemistry Methods and Instrumentation
52. Surface Plasmon Resonance Instrumentation
53. UV-Visible Absorption Spectrometers
54. UV-Visible Fluorescence Spectrometers
55. Zeeman and Stark Methods in Spectroscopy Instrumentation
56. Applications of Circular Dichroism
57. Biomacromolecular Applications of UV-Visible Absorption Spectroscopy
58. Chemical Reactions Studied by Electronic Spectroscopy
59. Circularly Polarized Luminescence and Fluorescence-Detected Circular Dichroism
60. Dyes and Indicators: Applications of UV-Visible Absorption Spectroscopy
61. Environmental Applications of Electronic Spectroscopy
62. Fibre Optic Probes in Optical Spectroscopy: Clinical Applications
63. Fluorescence Microscopy Applications
64. Induced Circular Dichroism
65. Inorganic Chemistry Applications of UV-Visible Absorption and Circular Dichroism
66. Inorganic Condensed Matter Applications of Luminescence Spectroscopy
67. Interstellar Molecules Spectroscopy
68. Laser Applications in Electronic Spectroscopy
69. Laser-Induced Optoacoustic Spectroscopy
70. Linear Dichroism Applications
71. Multiphoton Spectroscopy Applications
72. Organic Applications of UV-Visible Absorption Spectroscopy
73. Organic Chemistry Applications of Fluorescence Spectroscopy
74. Photoacoustic Spectroscopy Applications
75. Scattering and Particle Sizing Applications
76. Spectroelectrochemistry Applications
77. Stars Spectroscopy
78. Surface Plasmon Resonance Applications
79. Zeeman and Stark Methods in Spectroscopy Applications
80. Electromagnetic Radiation
81. Fourier Transformation and Sampling Theory
82. Tensor Representations
83. Nonlinear Raman Spectroscopy Applications
84. Analytical Methodology Standards for Metabolomics
85. Laboratory Information Management Systems (LIMS)
86. Light Sources and Optics
87. High Energy Ion Beam Analysis
88. Inelastic Neutron Scattering Instrumentation
89. Mössbauer Spectrometers
90. Photoelectron Spectrometers
91. Proton Microprobe Method and Background
92. X-Ray Emission Spectroscopy Methods
93. Mössbauer Spectroscopy Applications
94. X-Ray Emission Spectroscopy Applications
95. X-Ray Fluorescence Spectroscopy Applications
96. Zero Kinetic Energy Photoelectron Spectroscopy Applications
97. Magnetic Resonance: Historical Perspective
98. Chemical Exchange Effects in NMR
99. Contrast Mechanisms in MRI
100. EPR Spectroscopy Theory
101. Magnetic Field Gradients in High-Resolution NMR
102. MRI Theory
103. NMR in Anisotropic Systems Theory
104. NMR Principles
105. NMR Pulse Sequences
106. NMR Relaxation Rates
107. Nuclear Overhauser Effect
108. Nuclear Quadrupole Resonance Theory
109. Nuclear Quadrupole Resonance Applications
110. Parameters in NMR Spectroscopy Theory
111. Product Operator Formalism in NMR
112. Radiofrequency Field Gradients in NMR Theory
113. Diffusion Studied Using NMR Spectroscopy
114. Functional MRI (fMRI)
115. Hyperpolarization Methods and Applications
116. Hyperpolarized Gases in NMR: Methods and Applications
117. Hyphenated NMR Methods and Applications
118. In Vivo 1H MRS Methods
119. Low Field NMR Methods and Applications
120. MRI Instrumentation
121. MRI Using Stray Fields
122. n-Dimensional NMR Methods
123. Nucleic Acids Studied by NMR Spectroscopy
124. NMR Data Processing
125. NMR Microscopy
126. NMR Relaxometers
127. Overview of NMR-Based Metabonomics
128. Plant Science Applications of NMR
129. Polymer Applications of NMR
130. Polymorphism Studied by Solid-State NMR
131. Proteins Studied by NMR
132. Rigid Solids Studied Using MRI
133. Spin Trapping and Spin Labelling Studied Using EPR Spectroscopy
134. Structural Chemistry Using NMR Spectroscopy: Inorganic Molecules
135. Structural Chemistry Using NMR Spectroscopy: Organic Molecules
136. Structural Chemistry Using NMR Spectroscopy: Peptides
137. Tritium NMR Applications
138. Polymer Applications of IR and Raman Spectroscopy
139. Mass Spectrometry: Historical Perspective
140. Fragmentation in Mass Spectrometry
141. Ion Dissociation Kinetics in Mass Spectrometry
142. Ion Structures in Mass Spectrometry
143. Mass Spectrometry Ionization Theory
144. Statistical Theory of Mass Spectra
145. Accelerator Mass Spectrometry (AMS)
146. Chemical Ionization in Mass Spectrometry
147. Computer Methods in Mass Spectrometry for Chemical Structure Assignment
148. Raman Optical Activity Applications
149. Raman Optical Activity: Macromolecule and Biological Molecule Applications
150. Resonance Raman Applications
151. Surface Studies by IR Spectroscopy
152. Surface-Enhanced Raman Scattering (SERS) Applications
153. Vibrational Circular Dichroism Applications
154. Magnetic Resonance Microscopy
155. Appendices

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Tags: John Lindon, Encyclopedia of Spectroscopy