Practical Problem Solving in HPLCISBN: 978-3-527-29842-6
Paperback
193 pages
June 2000
 This is a Print-on-Demand title. It will be printed specifically to fill your order. Please allow an additional 10-15 days delivery time. The book is not returnable.
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Introduction
SIMPLE TESTS AND DECISION CRITERIA
Tip 01: What is in a name of a column material?
Tip 02: Is this C18 column the right choice for my sample?
Tip 03: Why are polar solutes well separated with one C18 column and barely with another?
Tip 04: How can I clean the RP-phase fast?
Tip 05: How do I best degas my mobile phase?
Tip 06: Methanol or acetonitrile?
Tip 07: The pH-value of the mobile phase is too high/too low - what to do?
Tip 08: Which is the right ionic strength of the buffer?
Tip 09: How to make sense of the dead volume of an isocratic equipment?
Tip 10: Taking over a gradient method - the influence of the instrumentation
Tip 11: Does the pump work correctly, precisely or accurately?
Tip 12: How to test an HPLC equipment and its modules?
Tip 13: Injection of solutes out of aqueous solutions
Tip 14: Which is the largest tolerable injection volume?
Tip 15: How critical are temperature changes? PartTip I: General comments, Detector
Tip 16: How critical are temperature changes? Part TIP II: Column, Separation
Tip 17: How to choose an HPLC equipment and a supplier?
Tip 18: Is the current method a robust one?
PROBLEMS AND THEIR SOLUTIONS
Tip 19: Sample preparation - how critical are which mistakes?
Tip 20: Flushing of an HPLC equipment
Tip 21: Junk in the UV detection cell
Tip 22: The lamp is new - what happened to the peak?
Tip 23: What are the causes for pressure changes or deviations?
Tip 24: Is the right or the left pump head defect?
Tip 25: Baseline noise and damping
Tip 26: The retention times increase - is it the pump or the mobile phase?
Tip 27: Which buffer is right for which pH-value?
Tip 28: An interesting alternative for the separation of acids and bases with buffer
Tip 29: What can be the reasons for a change in retention times?
Tip 30: I use up a lot of RP-columns, what should I do?
Tip 31: Why does my normal phase system not work anymore?
Tip 32: Chemical tailing at the presence of metal ions
Tip 33: How to avoid memory effects?
Tip 34: How do the default values on my PC affect the resolution?
HINTS TO OPTIMIZE THE SEPARATION
Tip 35: Which is the right injection technique to get sharper peaks?
Tip 36: My peaks appear too early - how can I move them in an RP system to later retention times?
Tip 37: How can I increase the plate number?
Tip 38: Limit of detectiTip on: how can I see more?
Tip 39: How can I speed up a separation?
Tip 40: How can I optimize a separation?
Tip 41: Dead volume, capacity factor, selectivity - how can I use them in every day life?
Tip 42: Which flow is optimal for me?
Tip 43: How can I optimize a gradient elution?
Tip 44: Separation of ionic solutes: what works out best - endcapped phases, inert phases, phosphate buffer or ion pairing reagents? Part I
Tip 45: Separation of ionic solutes: what works out best - endcapped phases, inert phases, phosphate buffer or ion pairing reagents? Part II
RETENTION OF IONIZIBLE COMPONENTS IN REVERSED-PHASE HPLC
Appendix
SIMPLE TESTS AND DECISION CRITERIA
Tip 01: What is in a name of a column material?
Tip 02: Is this C18 column the right choice for my sample?
Tip 03: Why are polar solutes well separated with one C18 column and barely with another?
Tip 04: How can I clean the RP-phase fast?
Tip 05: How do I best degas my mobile phase?
Tip 06: Methanol or acetonitrile?
Tip 07: The pH-value of the mobile phase is too high/too low - what to do?
Tip 08: Which is the right ionic strength of the buffer?
Tip 09: How to make sense of the dead volume of an isocratic equipment?
Tip 10: Taking over a gradient method - the influence of the instrumentation
Tip 11: Does the pump work correctly, precisely or accurately?
Tip 12: How to test an HPLC equipment and its modules?
Tip 13: Injection of solutes out of aqueous solutions
Tip 14: Which is the largest tolerable injection volume?
Tip 15: How critical are temperature changes? PartTip I: General comments, Detector
Tip 16: How critical are temperature changes? Part TIP II: Column, Separation
Tip 17: How to choose an HPLC equipment and a supplier?
Tip 18: Is the current method a robust one?
PROBLEMS AND THEIR SOLUTIONS
Tip 19: Sample preparation - how critical are which mistakes?
Tip 20: Flushing of an HPLC equipment
Tip 21: Junk in the UV detection cell
Tip 22: The lamp is new - what happened to the peak?
Tip 23: What are the causes for pressure changes or deviations?
Tip 24: Is the right or the left pump head defect?
Tip 25: Baseline noise and damping
Tip 26: The retention times increase - is it the pump or the mobile phase?
Tip 27: Which buffer is right for which pH-value?
Tip 28: An interesting alternative for the separation of acids and bases with buffer
Tip 29: What can be the reasons for a change in retention times?
Tip 30: I use up a lot of RP-columns, what should I do?
Tip 31: Why does my normal phase system not work anymore?
Tip 32: Chemical tailing at the presence of metal ions
Tip 33: How to avoid memory effects?
Tip 34: How do the default values on my PC affect the resolution?
HINTS TO OPTIMIZE THE SEPARATION
Tip 35: Which is the right injection technique to get sharper peaks?
Tip 36: My peaks appear too early - how can I move them in an RP system to later retention times?
Tip 37: How can I increase the plate number?
Tip 38: Limit of detectiTip on: how can I see more?
Tip 39: How can I speed up a separation?
Tip 40: How can I optimize a separation?
Tip 41: Dead volume, capacity factor, selectivity - how can I use them in every day life?
Tip 42: Which flow is optimal for me?
Tip 43: How can I optimize a gradient elution?
Tip 44: Separation of ionic solutes: what works out best - endcapped phases, inert phases, phosphate buffer or ion pairing reagents? Part I
Tip 45: Separation of ionic solutes: what works out best - endcapped phases, inert phases, phosphate buffer or ion pairing reagents? Part II
RETENTION OF IONIZIBLE COMPONENTS IN REVERSED-PHASE HPLC
Appendix
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