FAIMS apparatus and method for separating ions
First Claim
1. An apparatus for separating ions comprising:
- an electrode stack having a length defined along a stacking direction and comprising a plurality of electrodes, each electrode of the electrode stack being spaced apart from an adjacent electrode of the electrode stack along the stacking direction, each electrode of the electrode stack having an edge defining a portion of an edge of the electrode stack;
at least an electrode spaced apart from the edge of the electrode stack in a direction transverse to the stacking direction, the space between the at least an electrode and the edge of the electrode stack defining an analytical gap for allowing ions to propagate therebetween along the stacking direction;
an ion outlet plate disposed adjacent to a first end of the electrode stack and spaced-apart from the electrode stack along the stacking direction the ion outlet plate defining an ion outlet for extracting from the analytical gap ions propagating along the stacking direction; and
,at least an electrical controller for electrically coupling to at least one of an electrode of the plurality of electrodes of the electrode stack and the at least an electrode, for applying an asymmetric waveform voltage between the electrode of the plurality of electrodes of the electrode stack and the at least an electrode and for applying a direct current voltage between the electrode of the plurality of electrodes of the electrode stack and the at least an electrode so as to establish an electric field within the analytical gap.
2 Assignments
0 Petitions
Accused Products
Abstract
Disclosed is a high field asymmetric waveform ion mobility spectrometer (FAIMS) for separating ions, and a method therefore. The FAIMS includes an electrode stack (24) having a length and comprising a plurality of electrodes (26, 28). Each electrode of the electrode stack is spaced apart from an adjacent electrode in a direction along the length of the electrode stack, and each electrode of the electrode stack has an edge that defines a portion of an edge of the electrode stack. At least an electrode (22) is spaced apart from the edge of the electrode stack in a direction approximately transverse to the length of the electrode stack, the space between the at least an electrode and the edge of the electrode stack defines an analytical gap (20) for allowing ions to propagate therebetween. Ions are separated as they move through an electric field within the analytical gap resulting from the application of an asymmetric waveform voltage to alternate electrodes of the electrode stack and application of a direct current voltage to at least some of the electrodes of the electrode stack and to the at least an electrode.
23 Citations
25 Claims
-
1. An apparatus for separating ions comprising:
-
an electrode stack having a length defined along a stacking direction and comprising a plurality of electrodes, each electrode of the electrode stack being spaced apart from an adjacent electrode of the electrode stack along the stacking direction, each electrode of the electrode stack having an edge defining a portion of an edge of the electrode stack; at least an electrode spaced apart from the edge of the electrode stack in a direction transverse to the stacking direction, the space between the at least an electrode and the edge of the electrode stack defining an analytical gap for allowing ions to propagate therebetween along the stacking direction; an ion outlet plate disposed adjacent to a first end of the electrode stack and spaced-apart from the electrode stack along the stacking direction the ion outlet plate defining an ion outlet for extracting from the analytical gap ions propagating along the stacking direction; and
,at least an electrical controller for electrically coupling to at least one of an electrode of the plurality of electrodes of the electrode stack and the at least an electrode, for applying an asymmetric waveform voltage between the electrode of the plurality of electrodes of the electrode stack and the at least an electrode and for applying a direct current voltage between the electrode of the plurality of electrodes of the electrode stack and the at least an electrode so as to establish an electric field within the analytical gap. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
-
-
19. An apparatus for separating ions comprising:
-
an electrode assembly including; at least a first electrode comprising a first plurality of electrode portions; at least a second electrode comprising a second plurality of electrode portions arranged in alternating sequence with the first plurality of electrode portions along a first direction; an electrode plate spaced apart from the first plurality of electrode portions and the second plurality of electrode portions in a second direction transverse to the first direction, the space between the electrode plate and the first plurality of electrode portions and the second plurality of electrode portions defining an analytical gap for allowing ions to propagate therethrough along approximately the first direction; and
,at least an electrical controller for electrically coupling to at least one of the at least a first electrode, the at least a second electrode and the electrode plate for establishing an electrical field within the analytical gap resulting from the application of an asymmetric waveform voltage and a direct current voltage between the at least a first electrode, the at least a second electrode and the electrode plate, whereby ions having suitable high field mobility properties for a given combination of applied asymmetric waveform voltage and direct current voltage are selectively transmitted through the analytical gap. - View Dependent Claims (20, 21, 22)
-
-
23. A method of separating ions comprising the steps of:
-
introducing ions into a first space defined between adjacent electrode plates of a stacked parallel plate high field asymmetric waveform ion mobility spectrometer; performing a first separation of the ions within the first space, to selectively transmit a subset of the ions along a first direction between a first end of the electrode plates and a second end of the electrode plates that is opposite the first end; performing a second separation of the ions within a second space, the second space being defined between edge surfaces of the second end of each of the electrode plates and at least another electrode, to selectively transmit some of the subset of the ions along a second direction approximately transverse to the first direction and toward an ion outlet. - View Dependent Claims (24, 25)
-
Specification