Lid separation device and methods

The invention claimed is: 1. A separation device for separating a supernatant from a solid phase, comprising a multiwell plate for holding one or more liquids comprising one or more analytes and a solid phase to which said analyte can be bound, said multiwell plate comprising at least two purification chambers holding said liquid and said solid phase, wherein one or more of said analytes are bound to said solid phase within said purification chambers, said purification chambers not fluidically connected to each other or any other chamber in an opposite direction of said liquid's flow direction, at least one waste chamber to which the liquid can be transferred following binding of the analyte to the solid phase, said at least one waste chamber being fluidically connected only to one of said at least two purification chambers or to more than one of said at least two purification chambers without being further fluidically connected to any other chamber in said liquid's flow direction, and a lid covering said multiwell plate, wherein the interface between said multiwell plate and said lid is a gap in a side wall of the purification chambers, or a gap or a channel present on the lid, said gap in the side wall, or said gap or said channel present on the lid, connecting the purification chambers with the waste chamber to allow the liquid to transfer from the purification chambers holding the solid phase to said waste chamber when exposed to centrifugal force after said one or more analyte is bound to said solid phase, while the solid phase remains in said purification chambers, wherein said side wall of the purification chambers comprises an inclined surface toward the waste chamber. 2. The separation device according to claim 1 , wherein said waste chamber comprises a superabsorber capable of absorbing said supernatant. 3. The separation device according to claim 1 , wherein said separation device has less waste chambers than purification chambers. 4. The separation device according claim 1 , wherein said waste chamber is physically separate from said multiwell plate comprising said purification chambers, and wherein said waste chamber is connected to said purification chambers of said multiwell plate by channels comprised in said lid which guide the supernatant from said purification chambers to said waste chamber under centrifugal force. 5. The separation device according to claim 1 , wherein said interface comprises a wall between said purification chambers and said waste chamber which is interrupted to allow the supernatant to transfer from said purification chambers to said waste chamber under centrifugal force. 6. The separation device according to claim 1 , wherein the length of the wall between said purification chambers and said waste chamber is dimensioned such that a gap is present between said wall and said lid, wherein said supernatant can be transferred from said purification chambers to said waste chamber through said gap under centrifugal force. 7. The separation device according to claim 1 , wherein said lid is permanently attached to said vessel. 8. The separation device according to claim 1 , wherein said at least one waste chamber is ventilated. 9. A method of separating a liquid from a solid phase comprising the steps of incubating a liquid sample with a solid phase capable of binding an analyte contained in said liquid sample separating the liquid from said solid phase after binding of the analyte to the solid phase, wherein said liquid and said solid phase are contained in the separation device according to claim 1 , wherein said separating comprises centrifuging around an axis outside of the separation device, said separating device holding said liquid to transfer said liquid into one or more waste chambers, wherein said waste chambers are aerated. 10. The method of claim 9 , wherein the angle between the axis of centrifugation and the side walls of the purification chambers and the waste chamber of said separating device is 1° to 46°. 11. A sample preparation system comprising a centrifuge comprising a rotor capable of holding a separation device according to claim 1 , wherein a separation device according to claim 1 can be immobilized either horizontally or at an angle between the axis of rotation and the sidewalls of the purification chambers of 1° to 46°, a separation device according to claim 1 . 12. The separation device according to claim 1 , wherein said solid phase comprises magnetic particles. 13. The method according to claim 9 , wherein said solid phase comprises magnetic particles. 14. The method of claim 13 , further comprising immobilizing the magnetic particles during centrifugation by applying a magnetic field.