Understanding the Difference Between
Retention Time and Relative Retention Time
Retention Time
Retention time (RT) is a measure of
the time taken for a solute to pass through a chromatography column. It is
calculated as the time from injection to detection.
The RT for a compound is not fixed
as many factors can influence it even if the same GC and column are used. These
include:
- The gas flow rate
- Temperature differences in the oven and column
- Column degradation
- Column length
These factors can make it
difficult to compare retention times. Even if you use the same GC just a few
days apart, there can be small differences in the retention time of a compound.
Qualitative Analysis
Qualitative analysis relies on
comparing the retention times of the peaks in an unknown sample with those of
known standards. If the retention time of a peak in the unknown sample is the
same as the standard then a positive identification can be made.
Peak
Number
|
Standard
Identification
|
Standard
RT
/ minutes
|
Sample
X
RT
/ minutes
|
Sample
Y
RT
/ minutes
|
1
|
1.33
|
1.27
|
||
2
|
A
|
1.45
|
1.44
|
1.39
|
3
|
B
|
3.07
|
3.06
|
2.96
|
4
|
3.34
|
3.26
|
The results from three GC runs are
shown in the table. The Standard and Sample X were run consecutively. Sample Y
was run a few days later. From the retention times we can state, quite
reasonably, that Sample X contains components A and B. However, no positive
identification could be made for Sample Y based on a comparison of the
retention times. The peak in Y with a retention time of 1.39 minutes could be
component A, or it could be the component in X that elutes at 1.33 minutes.
A method that can reduce the effect
of small changes in GC parameters would be beneficial for qualitative analysis.
Relative Retention Time
The use of the relative retention
time (RRT) reduces the effects of some of the variables that can affect the
retention time. RRT is an expression of a sample’s retention time relative to
the standard’s retention time.
RRT
= Standard RT / Sample RT
To measure RRT, a sample matrix is
made up by mixing the sample with an internal standard (IS). Using the data
from before, but this time with an IS:
Peak
Number
|
Standard
Identification
|
Standard
RT
/ minutes
|
Sample
X
RT
/ minutes
|
Sample
Y
RT
/ minutes
|
1
|
1.33
|
1.28
|
||
2
|
A
|
1.45
|
1.44
|
1.39
|
3
|
IS
|
2.90
|
2.89
|
2.78
|
4
|
B
|
3.07
|
3.06
|
2.96
|
5
|
3.34
|
3.21
|
From the data we can calculate the
RRT of the peaks in X and Y.
Peak
|
Standard
RRT
|
Sample
X RRT
|
Sample
Y RRT
|
A
|
RRT
= 2.90/1.45 = 2.00
|
RRT
= 2.89/1.44 = 2.01
|
RRT
= 2.78/1.39 = 2.00
|
B
|
RRT
= 2.90/3.07 = 0.94
|
RRT
= 2.89/3.06 = 0.94
|
RRT
= 2.78/2.96 = 0.94
|
From the RRT data, components A and
B can be identified in both of the samples.
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