Magnetic conduits in microfluidics

What is claimed is: 1. A digital microfluidics system configured for substantially removing or suspending magnetically responsive beads from or in liquid portions or droplets, wherein the digital microfluidics system ( 1 ) comprises a number or array of individual electrodes ( 2 ) attached to a first substrate ( 3 ), a first hydrophobic surface ( 5 ) located on said individual electrodes ( 2 ), and a central control unit ( 7 ) in operative contact with said individual electrodes ( 2 ) for controlling selection and for providing a number of said individual electrodes ( 2 ) that define a path of individual electrodes ( 2 ′) with voltage for manipulating liquid portions ( 8 - 2 ) or liquid droplets ( 8 - 1 ) by electrowetting; and wherein in the first substrate ( 3 ) of the microfluidics system ( 1 ) there is located at least one magnetic conduit ( 9 ) that is configured to be backed by a backing magnet ( 10 ), said at least one magnetic conduit ( 9 ) being located in close proximity to individual electrodes ( 2 ). 2. The digital microfluidics system ( 1 ) of claim 1 , wherein said at least one specific magnetic conduit ( 9 ) consists of a single solid ferromagnetic element, or of a multitude of randomly orientated ferromagnetic elements, or of an amorphous paste filled with ferromagnetic material. 3. The digital microfluidics system ( 1 ) of claim 1 , wherein said at least one specific magnetic conduit ( 9 ) is located under and is covered by an individual electrode ( 2 ). 4. The digital microfluidics system ( 1 ) of claim 1 , wherein said at least one specific magnetic conduit ( 9 ) is located beside of and is not covered by at least one individual electrode ( 2 ). 5. The digital microfluidics system ( 1 ) of claim 1 , wherein said backing magnet ( 10 ) is configured as a permanent magnet ( 10 ′), or as a switchable permanent magnet ( 10 ″), or as an electromagnet ( 10 ′″). 6. The digital microfluidics system ( 1 ) of claim 1 , wherein said at least one magnetic conduit ( 9 ) is located in neighboring notches ( 12 ) in-between of two of the individual electrodes ( 2 ) or is located in a central void ( 13 ) of individual electrodes ( 2 ) that define this path of selected electrodes ( 2 ′). 7. The digital microfluidics system ( 1 ) of claim 1 , wherein said at least one magnetic conduit ( 9 ) is located in at least one notch ( 12 ) at one side, at opposite sides, or at a corner of individual electrodes ( 2 ) that define this path of selected electrodes ( 2 ′). 8. The digital microfluidics system ( 1 ) of claim 1 , wherein said at least one magnetic conduit ( 9 ) is located at a side of one narrowed individual electrode ( 2 ″) or in a space ( 14 ) between two narrowed individual electrodes ( 2 ″) that define this path of selected electrodes ( 2 ′). 9. The digital microfluidics system ( 1 ) of claim 1 , wherein said at least one magnetic conduit ( 9 ) is a cuboid magnetic conduit ( 9 ′) located in a blind hole ( 15 ) or in a through hole ( 16 ) in the first substrate ( 3 ) of the digital microfluidics system ( 1 ). 10. The digital microfluidics system ( 1 ) of claim 1 , wherein said at least one magnetic conduit ( 9 ) is a pyramidal magnetic conduit ( 9 ″) located in a blind hole ( 15 ) in the first substrate ( 3 ) of the digital microfluidics system ( 1 ). 11. The digital microfluidics system ( 1 ) of claim 1 , wherein the microfluidics system ( 1 ) further comprises a cartridge accommodation site ( 18 ) that is configured for taking up a disposable cartridge ( 17 ) which comprises the first hydrophobic surface ( 5 ) that belongs to a working film ( 19 ), a second hydrophobic surface ( 6 ) that belongs to a cover plate ( 20 ) of the disposable cartridge ( 17 ), and a working gap ( 4 ) that is located in-between the two hydrophobic surfaces ( 5 , 6 ). 12. A digital microfluidics system configured for substantially removing or suspending magnetically responsive beads from or in liquid portions or droplets, wherein the digital microfluidics system ( 1 ) comprises a number or array of individual electrodes ( 2 ) attached to a first substrate ( 3 ), a first hydrophobic surface ( 5 ) located on said individual electrodes ( 2 ), and a central control unit ( 7 ) in operative contact with said individual electrodes ( 2 ) for controlling selection and for providing a number of said individual electrodes ( 2 ) that define a path of individual electrodes ( 2 ′) with voltage for manipulating liquid portions ( 8 - 2 ) or liquid droplets ( 8 - 1 ) by electrowetting; wherein in the first substrate ( 3 ) of the microfluidics system ( 1 ) there is located at least one magnetic conduit ( 9 ) that is configured to be backed by a backing magnet ( 10 ), said at least one magnetic conduit ( 9 ) being located in close proximity to individual electrodes ( 2 ); wherein the microfluidics system ( 1 ) further comprises a cartridge accommodation site ( 18 ) that is configured for taking up a disposable cartridge ( 17 ) which comprises the first hydrophobic surface ( 5 ) that belongs to a working film ( 19 ), a second hydrophobic surface ( 6 ) that belongs to a cover plate ( 20 ) of the disposable cartridge ( 17 ), and a working gap ( 4 ) that is located in-between the two hydrophobic surfaces ( 5 , 6 ); and comprising a disposable cartridge ( 17 ), wherein the disposable cartridge ( 17 ) of the digital microfluidics system ( 1 ) comprises a rigid cover-plate ( 20 ), and wherein aligned with one of said magnetic conduits ( 9 ) in the first substrate ( 3 ) of the digital microfluidics system ( 1 ) there are blind holes ( 15 ) located in said rigid cover-plate ( 20 ) of the disposable cartridge ( 17 ), in which blind holes ( 15 ) there are located a cooperating magnetic conduit ( 25 ) which is backed with a backing magnet ( 10 ) or a cooperating magnet ( 26 ). 13. A disposable cartridge ( 17 ) configured for being accommodated at a cartridge accommodation site ( 18 ) of a digital microfluidics system ( 1 ) configured for substantially removing or suspending magnetically responsive beads from or in liquid portions or droplets, wherein the digital microfluidics system ( 1 ) comprises a number or array of individual electrodes ( 2 ) attached to a first substrate ( 3 ), a first hydrophobic surface ( 5 ) located on said individual electrodes ( 2 ), and a central control unit ( 7 ) in operative contact with said individual electrodes ( 2 ) for controlling selection and for providing a number of said individual electrodes ( 2 ) that define a path of individual electrodes ( 2 ′) with voltage for manipulating liquid portions ( 8 - 2 ) or liquid droplets ( 8 - 1 ) by electrowetting; wherein in the first substrate ( 3 ) of the microfluidics system ( 1 ) there is located at least one magnetic conduit ( 9 ) that is configured to be backed by a backing magnet ( 10 ), said at least one magnetic conduit ( 9 ) being located in close proximity to individual electrodes ( 2 ); wherein the microfluidics system ( 1 ) further comprises a cartridge accommodation site ( 18 ) that is configured for taking up a disposable cartridge ( 17 ) which comprises the first hydrophobic surface ( 5 ) that belongs to a working film ( 19 ), a second hydrophobic surface ( 6 ) that belongs to a cover plate ( 20 ) of the disposable cartridge ( 17 ), and a working gap ( 4 ) that is located in-between the two hydrophobic surfaces ( 5 , 6 ); and the disposable cartridge ( 17 ) comprising the first hydrophobic surface ( 5 ) that belongs to a working film ( 19 ), a second hydrophobic surface ( 6 ) that belongs to a rigid cover plate ( 20 ) of the disposable cartridge ( 17 ), and a working gap ( 4 ) that is located in-between the two hydrophobic surf