Translator for HPLC HINTS and TIPS for Chromatographers

Saturday, October 12, 2013

What type of Water Should I use for HPLC, UHPLC or LC/MS Analysis?

Water is one of the most common solvents used in reversed phase chromatography. HPLC and LC/MS work demands ultra pure quality water be used in all applications which call for it as part of the method. Special types of HPLC analysis, such as amino acid analysis and ion chromatography, demand fresh ultra high quality water be used or artifact peaks may result. Poor quality or low grades of water may lead to "ghost peaks", baseline instability, high background noise or signals, contamination of columns and an inability to obtain reproducible results. Use the freshest and highest purity of water for best results.

A good starting point for describing the type of water suited to liquid chromatography applications is to look at the specification for ASTM Type 1 Reagent grade water. We often exceed this requirement for chromatography applications as several unspecified items such as nitrates and other chemicals present may have a negative effect on our analysis methods.

How does the grade of water affect our chromatography? The grade specified often dictates the amount of organics, bacteria, particulate, residues and overall absorbance the water will have. For example.

(1) Organics: High levels of T.O.C. can accumulate on the particles, inside the pores, or bind to active sites on the support inside the column causing a loss of resolution or sensitivity. *Lower T.O.C. levels are desirable.

(2) Bacteria: Microorganisms can contaminate the buffer solutions used causing ghost peaks, column fouling and the release of additional foreign organic matter into the system. This can result in clogs, ghost peaks, poor reproducibility or loss of resolution and/or sensitivity. *The water should be filtered through a 0.2 micron filter before use. Refrigerate solutions for no more than 3 days to slow growth, then dispose of the solutions.

(3) UV absorbance: High background or interfering ions which absorb can raise the baseline and noise levels seen, decreasing the total dynamic range. *Again, the lowest values, esp. at 200nm, are desirable.

A few of the general requirements for HPLC grade ultrapure Type 1 water can be stated as follows:

   Resistivity :         > 18 MΩ•cm at 25.0 C
   T.O.C. :              < 5 ppb
   UV cutoff :          190nm (as low in absorbance as possible!)
   Filtered :             0.2 micron Filter

*Some suppliers will also specify residue after evaporation (usually < 2 ppm); Trace metal analysis; Optical properties at specified wavelengths and other information. If purchasing by the bottle, request a copy of the lot certification sheet for the water so you can compare the measured values to other products.

Generating your own in-house, reverse osmosis (RO) ultra pure water from potable tap water is one of the best ways to insure you have high quality water for your LC methods. These systems pre-filter the water to remove large particulates then typically use UV lamps and/or multiple resin cartridges to remove the maximum amount of T.O.C.'s from the water plus many trace metals before finally filtering the water through a 0.2 micron membrane as a final polishing step. Various types of systems can be purchased, but for HPLC or LC-MS applications, it is critical that you select a system that provides ultra pure water suitable for your applications. Periodic maintenance of the filter cartridges and monitoring of the main water supply source is critical to their operation (some "tap" water sources may require pre-treatement). *"Water On Demand" systems such as these provide fresh clean water on demand so there is no need to be concerned with storage issues. A number of different vendors offer these lab grade systems for HPLC and LC/MS applications and you can contact them (e.g. Millipore/Sigma Milli-Q® brand) to determine which system will provide you with the volume and quality of water which is appropriate for your application(s).

If you do not have access to an in-house reverse osmosis system, then purchasing HPLC or LC/MS grade water in glass bottles may be another option. A hint, before opening and using them,  clean the outside of bottles of all dust. Date the bottles when you first open them. Bacteria will start to grow once the bottle has been opened. The glass will also slowly leach ions (i.e. Sodium) over time into the water so it is best to use the water quickly.

Never underestimate how the quality of the water you use to perform chromatography can change the results seen in your methods. Water quality is just as critical as any other component in your system so be sure and take the time to monitor it just like you do to any other part of the system.

4 comments:

  1. Thank you so much

    Regards
    Krishanthi

    ReplyDelete
  2. Thank you very much! - Do you also give information how you test the water quality? I have a QTOF here and want to use MilliQ instead of Bottle-Water. I am hesitating in doing SPE of all the waters to compare their effluent. What would you suggest- use a gradient method and no injection? I am grateful for any hints about how to efficently compare background.

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    Replies
    1. I would recommend that you obtain a few sources of high purity water (e.g. Milli-Q, LC/MS grade, HPLC Grade) and then use them as the mobile phase with your MS system to compare their background signals (*If you just injected the water samples as blanks, you would acquire a very small amount of data and what you really want is to monitor them over time). Test the water mobile phase samples with and without some organic solvent (and optionally, an acid or base, depending on ionization mode). Create different bottles with each 'test' mobile phase. They could be directly infused (syringe pump) or run with a restriction capillary in place of an HPLC column into the MS. *For evaluation purposes, try and setup the MS system to run as close to how you normally would use it. Establish settings and evaluate the background of the different types of water mobile phase. Pay attention to changes in levels of adduct formation (probably sodium ions from glass sources) and evidence of common plasticizers. Use both the water in "pure" forms, directly from the source and also as a 50/50 mixture with a pure solvent (e.g. HPLC grade Methanol and/or ACN). The reason for this is that the addition of different organic solvents may dissolve different impurities. This will allow you to detect any changes between the samples.

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