Easy peak tracking in CE-UV and CE-UV-ESI-MS by incorporating temperature-correlated mobility scaling

Bin Li; Nickolaj Jacob Petersen; Line Hvass Andersen; Steen Honoré Hansen

doi:10.1002/elps.201200695

Easy peak tracking in CE-UV and CE-UV-ESI-MS by incorporating temperature-correlated mobility scaling

Bin Li, Nickolaj Jacob Petersen, Line Hvass Andersen, Steen Honoré Hansen

5 Citationer (Scopus)

Abstract

A simple data reconstruction technique in CE-UV-ESI-MS (where UV stands for ultraviolet) is presented to overcome the drift in mobilities caused by various factors compromising the reproducibility of such data, for example Joule heating effects and the variation in thermostatic control along the capillary, drift in EOF and the suction effect caused by the nebulizing gas in coaxial CE-MS interfaces. We present here a method to transform the traditional time-based electropherogram into the corresponding temperature-correlated mobility scale allowing tracking of analytes independent from capillary dimensions, electric field strengths, temperature control, and distance between the detectors. The main principle of this alignment is based on including the current in the mobility calculations and relating this to the initial electrical resistance of the buffer-filled capillary. The temperature-correlated mobility calculation eliminates the peak shifts due to the viscosity changes, improves the precision of peak identification using the observed temperature-correlated mobilities, and allows a direct comparison of signals from different detection combinations. The method allows peaks from normal CE-UV separations to be correlated with the corresponding peak obtained by MS detection in CE-MS even for differences in capillary dimensions and thermostatic control.

Originalsprog	Engelsk
Tidsskrift	Electrophoresis
Vol/bind	34
Udgave nummer	12
Sider (fra-til)	1787–1795
ISSN	0173-0835
DOI	https://doi.org/10.1002/elps.201200695
Status	Udgivet - jun. 2013

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10.1002/elps.201200695

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title = "Easy peak tracking in CE-UV and CE-UV-ESI-MS by incorporating temperature-correlated mobility scaling",

abstract = "A simple data reconstruction technique in CE-UV-ESI-MS (where UV stands for ultraviolet) is presented to overcome the drift in mobilities caused by various factors compromising the reproducibility of such data, for example Joule heating effects and the variation in thermostatic control along the capillary, drift in EOF and the suction effect caused by the nebulizing gas in coaxial CE-MS interfaces. We present here a method to transform the traditional time-based electropherogram into the corresponding temperature-correlated mobility scale allowing tracking of analytes independent from capillary dimensions, electric field strengths, temperature control, and distance between the detectors. The main principle of this alignment is based on including the current in the mobility calculations and relating this to the initial electrical resistance of the buffer-filled capillary. The temperature-correlated mobility calculation eliminates the peak shifts due to the viscosity changes, improves the precision of peak identification using the observed temperature-correlated mobilities, and allows a direct comparison of signals from different detection combinations. The method allows peaks from normal CE-UV separations to be correlated with the corresponding peak obtained by MS detection in CE-MS even for differences in capillary dimensions and thermostatic control.",

author = "Bin Li and Petersen, {Nickolaj Jacob} and Andersen, {Line Hvass} and Hansen, {Steen Honor{\'e}}",

note = "{\textcopyright} 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.",

year = "2013",

month = jun,

doi = "10.1002/elps.201200695",

language = "English",

volume = "34",

pages = "1787–1795",

journal = "Electrophoresis",

issn = "0173-0835",

publisher = "Wiley - V C H Verlag GmbH & Co. KGaA",

number = "12",

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TY - JOUR

T1 - Easy peak tracking in CE-UV and CE-UV-ESI-MS by incorporating temperature-correlated mobility scaling

AU - Li, Bin

AU - Petersen, Nickolaj Jacob

AU - Andersen, Line Hvass

AU - Hansen, Steen Honoré

PY - 2013/6

Y1 - 2013/6

N2 - A simple data reconstruction technique in CE-UV-ESI-MS (where UV stands for ultraviolet) is presented to overcome the drift in mobilities caused by various factors compromising the reproducibility of such data, for example Joule heating effects and the variation in thermostatic control along the capillary, drift in EOF and the suction effect caused by the nebulizing gas in coaxial CE-MS interfaces. We present here a method to transform the traditional time-based electropherogram into the corresponding temperature-correlated mobility scale allowing tracking of analytes independent from capillary dimensions, electric field strengths, temperature control, and distance between the detectors. The main principle of this alignment is based on including the current in the mobility calculations and relating this to the initial electrical resistance of the buffer-filled capillary. The temperature-correlated mobility calculation eliminates the peak shifts due to the viscosity changes, improves the precision of peak identification using the observed temperature-correlated mobilities, and allows a direct comparison of signals from different detection combinations. The method allows peaks from normal CE-UV separations to be correlated with the corresponding peak obtained by MS detection in CE-MS even for differences in capillary dimensions and thermostatic control.

AB - A simple data reconstruction technique in CE-UV-ESI-MS (where UV stands for ultraviolet) is presented to overcome the drift in mobilities caused by various factors compromising the reproducibility of such data, for example Joule heating effects and the variation in thermostatic control along the capillary, drift in EOF and the suction effect caused by the nebulizing gas in coaxial CE-MS interfaces. We present here a method to transform the traditional time-based electropherogram into the corresponding temperature-correlated mobility scale allowing tracking of analytes independent from capillary dimensions, electric field strengths, temperature control, and distance between the detectors. The main principle of this alignment is based on including the current in the mobility calculations and relating this to the initial electrical resistance of the buffer-filled capillary. The temperature-correlated mobility calculation eliminates the peak shifts due to the viscosity changes, improves the precision of peak identification using the observed temperature-correlated mobilities, and allows a direct comparison of signals from different detection combinations. The method allows peaks from normal CE-UV separations to be correlated with the corresponding peak obtained by MS detection in CE-MS even for differences in capillary dimensions and thermostatic control.

U2 - 10.1002/elps.201200695

DO - 10.1002/elps.201200695

M3 - Journal article

C2 - 23576063

SN - 0173-0835

VL - 34

SP - 1787

EP - 1795

JO - Electrophoresis

JF - Electrophoresis

IS - 12

ER -

Easy peak tracking in CE-UV and CE-UV-ESI-MS by incorporating temperature-correlated mobility scaling

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