Description
Handbook of Methods and Instrumentation in Separation Science, Volume 1 provides concise overviews and summaries of the main methods used for separation. It is based on the Encyclopedia of Separation Science. The handbook focuses on the principles of methods and instrumentation. It provides general concepts concerning the subject matter; it does not present specific procedures.
This volume discusses the separation processes including affinity methods, analytical ultracentrifugation, centrifugation, chromatography, and use of decanter centrifuge and dye. Each methodology is defined and compared with other separation processes. It also provides specific techniques, principles, and theories concerning each process. Furthermore, the handbook presents the applications, benefits, and validation of the processes described in this book.
This handbook is an excellent reference for biomedical researchers, environmental and production chemists, flavor and fragrance technologists, food and beverage technologists, academic and industrial librarians, and nuclear researchers. Students and novices will also find this handbook useful for practice and learning.
- One-stop source for information on separation methods
- General overviews for quick orientation
- Ease of use for finding results fast
- Expert coverage of major separation methods
- Coverage of techniques for all sizes of samples, pico-level to kilo-level
Chapter
Analytical Ultracentrifugation
pp.:
45 – 52
Biochemical Engineering Aspects of Affinity Separations
pp.:
52 – 60
Centrifugation
pp.:
60 – 83
Chromatography
pp.:
83 – 108
Countercurrent Chromatography: Extrusion-Elution
pp.:
108 – 116
Countercurrent Chromatography: Instrumentation
pp.:
116 – 126
Countercurrent Chromatography: Large-Scale
pp.:
126 – 137
Countercurrent Chromatography: Overview
pp.:
137 – 147
Covalent Chromatography
pp.:
147 – 154
Dye Ligands
pp.:
164 – 170
Gas Chromatography: Chiral Separations
pp.:
170 – 179
Gas Chromatography: Column Technology
pp.:
179 – 187
Gas Chromatography: Derivatization
pp.:
187 – 197
Gas Chromatography: Detectors: General
pp.:
197 – 202
Gas Chromatography: Detectors: Infrared Spectrometry
pp.:
202 – 209
Gas Chromatography: Detectors: Ion Mobility Mass Spectrometry
pp.:
209 – 219
Gas Chromatography: Detectors: Mass Spectrometry
pp.:
219 – 227
Gas Chromatography: Detectors: Selective
pp.:
227 – 236
Gas Chromatography: Gas-Solid Chromatography
pp.:
236 – 244
Gas Chromatography: Headspace Gas Chromatography
pp.:
244 – 252
Gas Chromatography: High-Speed Gas Chromatography
pp.:
252 – 262
Gas Chromatography: High-Temperature Gas Chromatography
pp.:
262 – 270
Gas Chromatography: Historical Development
pp.:
270 – 277
Gas Chromatography: Large-Scale Gas Chromatography
pp.:
277 – 284
Gas Chromatography: Multidimensional Gas Chromatography
pp.:
284 – 293
Gas Chromatography: Pyrolysis Gas Chromatography
pp.:
293 – 300
Gas Chromatography: Sampling Systems
pp.:
300 – 308
Gas Chromatography: Theory of Gas Chromatography
pp.:
308 – 318
Hydrodynamic Chromatography
pp.:
318 – 332
Hydrophobic Interaction Chromatography
pp.:
332 – 340
Immobilized Boronates/Lectins
pp.:
340 – 345
Immobilized Metal Ion Chromatography
pp.:
345 – 352
Immunoaffinity Chromatography
pp.:
352 – 358
Imprint Polymers
pp.:
358 – 368
Large-Scale Centrifugation
pp.:
368 – 378
Liquid Chromatography-Gas Chromatography
pp.:
378 – 383
Liquid Chromatography: Column Testing and Evaluation
pp.:
383 – 390
Liquid Chromatography: Derivatization
pp.:
390 – 398
Liquid Chromatography: Detectors: Evaporative Light Scattering
pp.:
398 – 403
Liquid Chromatography: Detectors: Fluorescence Detection
pp.:
403 – 410
Liquid Chromatography: Detectors: Infrared Spectrometry
pp.:
410 – 418
Liquid Chromatography: Detectors: Laser Light Scattering
pp.:
418 – 423
Liquid Chromatography: Detectors: Mass Spectrometry
pp.:
423 – 430
Liquid Chromatography: Detectors: Nuclear Magnetic Resonance
pp.:
430 – 444
Liquid Chromatography: Detectors: Refractive Index Detectors
pp.:
444 – 452
Liquid Chromatography: Detectors: Ultraviolet and Visible Detection
pp.:
452 – 467
Liquid Chromatography: Electrochromatography
pp.:
467 – 475
Liquid Chromatography: Flash Chromatography
pp.:
475 – 481
Liquid Chromatography: Historical Development
pp.:
481 – 489
Liquid Chromatography: Instrumentation
pp.:
489 – 496
Liquid Chromatography: Large-Scale Liquid Chromatography
pp.:
496 – 502
Liquid Chromatography: Mechanisms: Chiral
pp.:
502 – 507
Liquid Chromatography: Mechanisms: Gradient Polymer Chromatography
pp.:
507 – 516
Liquid Chromatography: Mechanisms: Ion Chromatography
pp.:
516 – 526
Liquid Chromatography: Mechanisms: Ion Exclusion Chromatography
pp.:
526 – 535
Liquid Chromatography: Mechanisms: Ion-Pair Chromatography
pp.:
535 – 544
Liquid Chromatography: Mechanisms: Micellar Liquid Chromatography
pp.:
544 – 556
Liquid Chromatography: Mechanisms: Normal Phase
pp.:
556 – 562
Liquid Chromatography: Mechanisms: Reversed Phase
pp.:
562 – 569
Liquid Chromatography: Mechanisms: Size-Exclusion Chromatography
pp.:
569 – 578
Liquid Chromatography: Medium Pressure Liquid Chromatography
pp.:
578 – 585
Liquid Chromatography: Monolithic Columns
pp.:
585 – 592
Liquid Chromatography: Multidimensional Chromatography
pp.:
592 – 602
Liquid Chromatography: Theory of Liquid Chromatography
pp.:
602 – 611
Liquid Chromatography: Ultra-Performance Liquid Chromatography
pp.:
611 – 618
Macromolecular Interactions: Characterization by Analytical Ultracentrifugation
pp.:
618 – 625
Method Validation
pp.:
625 – 632
Paper Chromatography
pp.:
632 – 640
Supercritical Fluid Chromatography: Chiral
pp.:
640 – 653
Supercritical Fluid Chromatography: Detection: Infrared Spectrophotometry
pp.:
653 – 664
Supercritical Fluid Chromatography: Historical Development
pp.:
664 – 670
Supercritical Fluid Chromatography: Instrumentation
pp.:
670 – 678
Supercritical Fluid Chromatography: Large-Scale Separations
pp.:
678 – 688
Supercritical Fluid Chromatography: Theory of Supercritical Fluid Chromatography
pp.:
688 – 698
Theory and Development of Affinity Chromatography
pp.:
698 – 705
Theory of Centrifugation
pp.:
705 – 712
Thin-Layer Chromatography: Chiral Separations
pp.:
712 – 727
Thin-Layer Chromatography: Detection: Densitometry and Image Analysis
pp.:
727 – 737
Thin-Layer Chromatography: Detection: Flame-Ionization Detection
pp.:
737 – 744
Thin-Layer Chromatography: Detection: Radioactivity Detection
pp.:
744 – 752
Thin-Layer Chromatography: Development: Conventional
pp.:
752 – 763
Thin-Layer Chromatography: Development: Forced Flow and Centrifugal
pp.:
763 – 776
Thin-Layer Chromatography: Historical Development
pp.:
776 – 781
Thin-Layer Chromatography: Instrumentation
pp.:
781 – 789
Thin-Layer Chromatography: Large-Scale Separations
pp.:
789 – 800
Thin-Layer Chromatography: Layer Properties
pp.:
800 – 807
Thin-Layer Chromatography: Spray Reagents
pp.:
807 – 816
Thin-Layer Chromatography: Theory of Thin-Layer Chromatography
pp.:
816 – 832
Colour Plate Section
pp.:
878 – 882
Handbook of Methods and Instrumentation in Separation Science
:Volume 1
Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.
