Monday, June 30, 2008

Suitable Solvents for LC/MS

(1) Reverse-Phase LC/MS Solvents
ACN, MeOH, H2O, Isopropanol.

(2) Normal-Phase LC/MS Solvents (for APCI-MS)
Hexane, Methylene Chloride, Acetone, Ethanol.

(3) Compatible LC/MS Buffers and Modifiers:
Formic acid, Acetic Acid, Ammonium Acetate, Ammonium Formate,
Ammonium Hydroxide, Trifluoroacetic Acid (TFA) concentration should
be <0.1%.

Avoid Non-volatile Buffers,
Alkali-metal phosphates, borates, etc. that is to say,

ØAcids
l Do not use inorganic acids (may cause source corrosion), Formic and acetic acid are recommended.

Ø Bases:l Do not use alkali metal bases (may cause source corrosion), Ammonium
hydroxide and ammonia solutions are recommended.

Surfactants (surface active agents): lDetergents and other surface active agents may suppress ionization.
Ø
Trifluoroacetic Acid
(TFA): l May enhance chromatographic resolution, but causes ion suppression in both negative and positive ion modes.

Ø Triethylamine/Trimethylamine (TEA/TMA): May enhance deprotonation for Negative Ion Formation.

Sunday, June 29, 2008

Steps for ESI Optimization (Electrospray Ionizatio)

Steps for ESI Optimization

1 If analyte’s pKa is unknown, evaluate 3 pH regions in positive and negative ion modes.

2 Acids – Negative Ion detection, adjust pH 2 units above pKa: Increase pH with NH4OH, TEA, TMA.

3 Bases – Postive Ion Detection, adjust pH 2 units below pKa* Decrease pH use formic acid , acetic acid, TFA. *In complex molecules, many exceptions to these rules are observed.

4 Remove salts which may cause ion suppression.

5 Adjust source temperature and source voltages to maximize signal

6 In negative ion mode, use lower spray voltage to minimize discharge.


The analyte is introduced to the source in solution either from the eluent flow from liquid chromatography. (Flow rate is 1µl min-1) . The analyte solution flow passes through the electrospray needle that has a high potential difference (with respect to the counter electrode) applied to it (typically in the range from 2.5 to 4 kV). This forces the spraying of charged droplets from the needle with a surface charge of the same polarity to the charge on the needle. The droplets are repelled from the needle towards the source sampling cone on the counter electrode . As the droplets traverse the space between the needle tip and the cone and solvent evaporation occurs.
Once the droplet leaves the capillary and enters the nitrogen it continues to lose solvent until the charge density exceeds the surface tension, i.e. the Raleigh constant is exceeded, the droplet explodes resulting in smaller charged droplets. This process continues until the droplets are small enough for ion desorption. The creation of these ions facilitates the transfer of the sample molecules from the source into the MS as the ions are attracted and accelerated into the mass analyser.

Note: The first pioneering experiments on electrospray ionization (ESI) was conducted by Malcom Dole, Not me--- Malcolm. haha...

Guidelines for Choosing Ionization Method

Guidelines for Choosing Ionization Method for LC-MS

Note: This July, will focus on LC-MS and GC-MS@Pesticides.

So Do not go, I will be back --<(:) smile>- I learned this from FX TV channel, can not endure up to 10 times annoying TV Advertisements during a Movie... So I disconnected the cable services @ June-2008. Am I stupid? yes, maybe, but whatever....