Ion fragmentation by electron capture in linear RF ion traps
First Claim
1. A method for the fragmentation of multiply charged parent ions, comprising the steps of:
- (a) providing a linear RF ion trap;
(b) providing an electron source outside the linear RF ion trap;
(c) providing a damping gas inside the linear RF ion trap;
(d) providing in the linear RF ion trap a cloud of parent ions to be fragmented, whereby the ions gather in the axis of the linear RF ion trap; and
(e) injecting electrons from the electron source into the ion cloud with a maximum kinetic energy of 30 electron volts at the arrival at the ion cloud, whereby at least a part of the ions are fragmented by reactions with the electrons.
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Abstract
The invention relates to a method and device for the fragmentation of macromolecules in linear quadrupole RF ion traps according to Wolfgang Paul. The invention consists in fragmenting the ions by the capture of low energy electrons (ECD), injected into the linear RF ion trap. One way of doing this is to inject low energy electrons through the gap between the pole rods. Another possibility is to inject the electrons through an opening in one of the pole rods carrying a RF voltage, the electron source being kept at the highest positive potential which is achieved on the center axis of the ion trap during the RF period. Both methods can be improved by pulse-shaped RF voltages, offering longer periods for electron capture. The electron beam can be guided by a magnetic field.
27 Citations
10 Claims
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1. A method for the fragmentation of multiply charged parent ions, comprising the steps of:
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(a) providing a linear RF ion trap;
(b) providing an electron source outside the linear RF ion trap;
(c) providing a damping gas inside the linear RF ion trap;
(d) providing in the linear RF ion trap a cloud of parent ions to be fragmented, whereby the ions gather in the axis of the linear RF ion trap; and
(e) injecting electrons from the electron source into the ion cloud with a maximum kinetic energy of 30 electron volts at the arrival at the ion cloud, whereby at least a part of the ions are fragmented by reactions with the electrons. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A linear RF ion trap comprising:
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(a) RF carrying electrodes arranged around the axis of the linear RF ion trap;
(b) ion repelling end electrodes;
(c) an ion source outside the linear RF ion trap with means to transfer ions into the interior of the linear RF ion trap;
(d) a source of damping gas to fill the linear RF ion trap with a preselected pressure of damping gas; and
(e) an electron source outside the linear RF ion trap with means to inject the electrons into the linear RF ion trap. - View Dependent Claims (9, 10)
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Specification