2. SEQUENTIAL INJECTION
2.1.1. INTRODUCTION. Flow Programming.
2.1.3. Selecting Assay Protocol
2.1.4. Configuring SI System
2.1.5. Miniaturized SIA Instruments
2.2.1. PRINCIPLES
2.2.2. Homogenous Mixing and Concentration Gradients
2.2.3.A. Three Cornerstones
2.2.4. Lab-on-valve and System Configurations
2.2.5. Dispersion in Lab-on-valve (Movie Clip)
2.2.6.G. Sample Preparation by Sequential Dilution On-line
2.2.8. Stop Flow Method - Enzymatic Assays by End Point and by Reaction Rate
2.2.11.C. Sequential Dilution for Glucose Assay
2.2.12. TECHNIQUES & OPTIMIZATION
2.2.13. Assay Protocols and Fast and High Sensitivity SI
2.2.16. Split Zone Technique and Dual Channel Analyzer
2.2.17. Single Reagent Method: Nitrite Assay
2.2.19. On Column Reaction: Nitrate Assay
2.2.22. Split Zone: Simultaneous Nitrate & Nitrite Assay
2.2.24. Two Reagent Method: Phosphate Assay
2.2.31. Silicate Assay and Kinetic Discrimination
2.2.34. Two Reagents and Elevated Temperature; Ammonia Assay
2.2.38. Tools for Optimization
2.2.38.A. Single Standard Calibration
2.2.41. Summary
2.2.42.A. Next: MODULAR LAB-ON-VALVE
2.2.42.B. Next in Methodology: SIA Merges with FIA
2.3.1. SYSTEM CONFIGURATIONS and METHODS
2.3.2. The Conventional SI System
2.3.3. MiniSIA Systems and Components
2.3.5. Spectroscopies in LOV Format
2.3.6. Spectrophotometry with Long Light Flowcell
2.3.7. Fluorescence in LOV Format
2.3.11. Flowcell Design for Chemiluminescence
2.3.13. Performance of the Coiled Flowcell
2.3.21. Sorbent Extraction
2.3.26. Gas Diffusion and Dialysis
2.4.1. APPLICATIONS
2.4.2. Sequential Injection as a Research Tool
2.4.4. Enzyme Inhibition
2.4.5. Pharmaceutical Research
2.4.6. Fermentation Monitoring
2.4.8. Bioavailability of Metals in Soils
2.4.9. Synthesis in a Microreactor
2.4.10. Enhancement of Instrumental Techniques
2.4.11. Atomic Spectroscopies.
2.4.13. Capillary Electrophoresis
2.5.1. INSTRUMENTATION
2.5.2. Laboratory Instruments
2.5.3. Process Control Instruments
2.5.4. Software
2.6.1. OUTLOOK, SUMMARY and REFERENCES
