TY - JOUR
T1 - Application of power functions to chromatographic data for the enhancement of signal to noise ratios and separation resolution
AU - Shalliker, R. A.
AU - Stevenson, P. G.
AU - Shock, D.
AU - Mnatsakanyan, M.
AU - Dasgupta, P. K.
AU - Guiochon, G.
PY - 2010
Y1 - 2010
N2 - Chromatographic detection responses are recorded digitally. A peak is represented ideally by a Guassian distribution. Raising a Guassian distribution to the power '. n' increases the height of the peak to that power, but decreases the standard deviation by √n. Hence there is an increasing disparity in detection responses as the signal moves from low level noise, with a corresponding decrease in peak width. This increases the S/N ratio and increases peak to peak resolution. The ramifications of these factors are that poor resolution in complex chromatographic data can be improved, and low signal responses embedded at near noise levels can be enhanced. The application of this data treatment process is potentially very useful in 2D-HPLC where sample dilution occurs between dimension, reducing signal response, and in the application of post-reaction detection methods, where band broadening is increased by virtue of reaction coils. In this work power functions applied to chromatographic data are discussed in the context of (a) complex separation problems, (b) 2D-HPLC separations, and (c) post-column reaction detectors.
AB - Chromatographic detection responses are recorded digitally. A peak is represented ideally by a Guassian distribution. Raising a Guassian distribution to the power '. n' increases the height of the peak to that power, but decreases the standard deviation by √n. Hence there is an increasing disparity in detection responses as the signal moves from low level noise, with a corresponding decrease in peak width. This increases the S/N ratio and increases peak to peak resolution. The ramifications of these factors are that poor resolution in complex chromatographic data can be improved, and low signal responses embedded at near noise levels can be enhanced. The application of this data treatment process is potentially very useful in 2D-HPLC where sample dilution occurs between dimension, reducing signal response, and in the application of post-reaction detection methods, where band broadening is increased by virtue of reaction coils. In this work power functions applied to chromatographic data are discussed in the context of (a) complex separation problems, (b) 2D-HPLC separations, and (c) post-column reaction detectors.
UR - http://handle.uws.edu.au:8081/1959.7/553025
U2 - 10.1016/j.chroma.2010.07.007
DO - 10.1016/j.chroma.2010.07.007
M3 - Article
SN - 0021-9673
VL - 1217
SP - 5693
EP - 5699
JO - Journal of Chromatography A
JF - Journal of Chromatography A
IS - 36
ER -