MECHANISMS OF REPELLER-INDUCED EFFECTS IN THERMOSPRAY LIQUID-CHROMATOGRAPHY MASS-SPECTROMETRY

被引：7

作者：

HEEREMANS, CE

VANDERHOEVEN, RAM

NIESSEN, WMA

VANDERGREEF, J

NIBBERING, NMM

机构：

[1] LEIDEN STATE UNIV,CTR BIOPHARMACEUT SCI,DIV ANALYT CHEM,POB 9502,2312 AV LEIDEN,NETHERLANDS

[2] UNIV AMSTERDAM,INST MASS SPECTROMETRY,1018 WS AMSTERDAM,NETHERLANDS

来源：

ORGANIC MASS SPECTROMETRY | 1991年 / 26卷 / 05期

关键词：

D O I：

10.1002/oms.1210260528

中图分类号：

O62 [有机化学];

学科分类号：

070303 ; 081704 ;

摘要：

The application of a high potential at the repeller electrode, positioned opposite to the sampling cone in order to increase the sampling efficiency, can induce fragmentation in thermospray mass spectrometry. Until now, this fragmentation has been attributed to collision-induced dissociation. As a result of studies on the changes in the reagent gas composition in the thermospray buffer ionization mode as a function of the repeller potential in the positive-ion mode, it appears that three different processes are occurring. At low repeller potentials, the thermospray mass spectra of the eluent are determined by the proton affinities and the concentrations of the various solvent constituents, and the stabilities of the formed cluster ions under the ion source conditions. With an increase in the repeller potential, collision-induced dissociation of the background ions starts to occur. When the kinetic energy of the ions and cluster ions becomes high enough, endothermic proton transfer and solvent-switching reaction pathways are opened. For the relatively volatile analytes studied, e.g. aniline, acetophenone, benzaldehyde and benzoic acid, similar effects are observed.

引用

页码：519 / 527

页数：9

共 27 条

[1] THERMOSPRAY MASS-SPECTROMETRY - USE OF GAS-PHASE ION MOLECULE REACTIONS TO EXPLAIN FEATURES OF THERMOSPRAY MASS-SPECTRA
ALEXANDER, AJ
KEBARLE, P
[J]. ANALYTICAL CHEMISTRY, 1986, 58 (02) : 471 - 478
[2] A NEW SOFT IONIZATION TECHNIQUE FOR MASS-SPECTROMETRY OF COMPLEX-MOLECULES
BLAKLEY, CR
CARMODY, JJ
VESTAL, ML
[J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1980, 102 (18) : 5931 - 5933
[3] THERMOSPRAY INTERFACE FOR LIQUID-CHROMATOGRAPHY MASS-SPECTROMETRY
BLAKLEY, CR
VESTAL, ML
[J]. ANALYTICAL CHEMISTRY, 1983, 55 (04) : 750 - 754
[4] CROSSED-BEAM LIQUID CHROMATOGRAPH MASS SPECTROMETER COMBINATION
BLAKLEY, CR
MCADAMS, MJ
VESTAL, ML
[J]. JOURNAL OF CHROMATOGRAPHY, 1978, 158 (OCT): : 261 - 276
[5] HIGH-PRESSURE COLLISIONAL ACTIVATION MASS-SPECTROMETRY OF AROMATIC HALIDES
BLOM, K
MUNSON, B
[J]. ORGANIC MASS SPECTROMETRY, 1987, 22 (11): : 727 - 735
[6] GAS-PHASE IONIZATION OF SELECTED NEUTRAL ANALYTES DURING THERMOSPRAY LIQUID-CHROMATOGRAPHY MASS-SPECTROMETRY
BURSEY, MM
PARKER, CE
SMITH, RW
GASKELL, SJ
[J]. ANALYTICAL CHEMISTRY, 1985, 57 (13) : 2597 - 2599
[7] STUDIES WITH A DUAL-BEAM THERMOSPRAY INTERFACE IN HIGH-PERFORMANCE LIQUID-CHROMATOGRAPHY MASS-SPECTROMETRY
BUTFERING, L
SCHMELZEISENREDEKER, G
ROLLGEN, FW
[J]. JOURNAL OF CHROMATOGRAPHY, 1987, 394 (01): : 109 - 116
[8] GARTEIZ DA, 1985, LC MAG, V3, P334
[9] GAS-PHASE ION EQUILIBRIA STUDIES OF SOLVATION OF HYDROGEN-ION BY METHANOL, DIMETHYL ETHER, AND WATER - EFFECT OF HYDROGEN-BONDING
GRIMSRUD, EP
KEBARLE, P
[J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1973, 95 (24) : 7939 - 7943
[10] DEVELOPMENT OF OPTIMIZATION STRATEGIES IN THERMOSPRAY LIQUID-CHROMATOGRAPHY MASS-SPECTROMETRY
HEEREMANS, CEM
VANDERHOEVEN, RAM
NIESSEN, WMA
TJADEN, UR
VANDERGREEF, J
[J]. JOURNAL OF CHROMATOGRAPHY, 1989, 474 (01): : 149 - 162

← 1 2 3 →