Vacuum degassing using electroactive material

The invention claimed is: 1. A degasser for at least partially degassing a gas-containing liquid, the degasser comprising: a liquid accommodation volume for accommodating the gas-containing liquid during degassing; a negative pressure chamber in which a negative pressure, compared to the liquid accommodation volume, is to be generated; a gas permeable membrane separating the liquid accommodation volume from the negative pressure chamber and arranged so that ultrasound forces at least part of gas of the gas-containing liquid to move through the gas permeable membrane by a combination of the negative pressure and the ultrasound; and an ultrasound source comprising an electroactive material and configured to generate ultrasound for actuating the gas-containing liquid and the gas permeable membrane, wherein the ultrasound source is integrally formed with the gas permeable membrane. 2. The degasser according to claim 1 , wherein the ultrasound source and the gas permeable membrane are formed as a stack. 3. The degasser according to claim 2 , wherein the stack comprises a porous spacer layer between the gas permeable membrane and the ultrasound source. 4. The degasser according to claim 1 , wherein the ultrasound source and the gas permeable membrane are formed as a patterned ultrasonic source sheet having one or more through holes filled at least partially with one connected or multiple separate sections of gas permeable material. 5. The degasser according to claim 1 , comprising a sealing structure sealing the ultrasound source with regard to the gas permeable membrane. 6. The degasser according to claim 1 , comprising a negative pressure source configured to generate the negative pressure in the negative pressure chamber. 7. The degasser according to claim 6 , wherein the negative pressure source is integrally formed with the ultrasound source in a wall which delimits at least part of the negative pressure chamber. 8. The degasser according to claim 1 , comprising a pressure sensor configured to sense a pressure in the negative pressure chamber, wherein the pressure sensor is integrally formed with at least one of the ultrasound source or the gas permeable membrane. 9. The degasser according to claim 1 , wherein the ultrasound source comprises electrodes between which the electroactive material is arranged and to which an electric signal is applicable for exciting the electroactive material. 10. The degasser according to claim 9 , wherein the electroactive material comprises a dielectric elastomer and forms a capacitor with the electrodes. 11. The degasser according to claim 1 , wherein the liquid accommodation volume comprises at least one liquid channel through which the gas-containing liquid is drivable during degassing. 12. The degasser according to claim 1 , comprising at least one of the following features: wherein the gas permeable membrane comprises a supporting grid; comprising a support structure on which the gas permeable membrane is mounted and configured to maintain at least a predefined minimum volume of the liquid accommodation volume; wherein the electroactive material is configured to act as a sensor and an actuator simultaneously. 13. A sample separation device for separating a fluidic sample, the sample separation device comprising: a pump configured to drive a mobile phase and the fluidic sample when injected in the mobile phase; a sample separation unit configured to separate the fluidic sample in the mobile phase; and the degasser according to claim 1 , wherein the at least partially degassed gas-containing liquid is supplied for creation of the mobile phase. 14. The degasser according to claim 1 , wherein the ultrasound source and the gas permeable membrane are mounted in a permanently fixed position relative to the negative pressure chamber. 15. The degasser according to claim 1 , wherein the electroactive material is a first electroactive material, and the degasser further comprises at least one of the following features: the gas permeable membrane comprises a second electroactive material; the gas permeable membrane comprises a second electroactive material having the same composition as the first electroactive material. 16. The degasser according to claim 1 , wherein: the electroactive material comprises at least one first flat, planar layer; the gas permeable membrane comprises at least one second flat, planar layer; and the at least one first flat, planar layer mechanically communicates with the at least one second flat, planar layer directly or through one or more additional layers interposed between the at least one first flat, planar layer and the at least one second flat, planar layer. 17. A method of at least partially degassing a gas-containing liquid, the method comprising: accommodating the gas-containing liquid in a liquid accommodation volume for degassing; generating a negative pressure, compared to the liquid accommodation volume, in a negative pressure chamber; and actuating the gas-containing liquid and a gas permeable membrane, which separates the liquid accommodation volume from the negative pressure chamber, by ultrasound generated by an ultrasound source comprising an electroactive material to thereby force at least part of gas of the gas-containing liquid to move through the gas permeable membrane by a combination of the negative pressure and the ultrasound, wherein the ultrasound source is integrally formed with the gas permeable membrane. 18. A degasser for at least partially degassing a gas-containing liquid, the degasser comprising: a liquid accommodation volume comprising at least one liquid channel through which the gas-containing liquid is drivable during degassing; a negative pressure chamber in which a negative pressure, compared to the liquid accommodation volume, is to be generated; a gas permeable membrane separating the liquid accommodation volume from the negative pressure chamber and arranged so that ultrasound forces at least part of gas of the gas-containing liquid to move through the gas permeable membrane by a combination of the negative pressure and the ultrasound; an ultrasound source comprising an electroactive material and configured to generate ultrasound for actuating the gas-containing liquid and the gas permeable membrane, wherein the ultrasound source is integrally formed with the gas permeable membrane; and a support structure on which the gas permeable membrane is mounted, wherein the support structure at least partially bounds the at least one liquid channel and the gas permeable membrane at least partially bounds the at least one liquid channel. 19. A degasser for at least partially degassing a gas-containing liquid, the degasser comprising: a liquid accommodation volume for accommodating the gas-containing liquid during degassing; a negative pressure chamber in which a negative pressure, compared to the liquid accommodation volume, is to be generated; a gas permeable membrane separating the liquid accommodation volume from the negative pressure chamber and arranged so that ultrasound forces at least part of gas of the gas-containing liquid to move through the gas permeable membrane by a combination of the negative pressure and the ultrasound; and an ultrasound source comprising an electroactive polymer and configured to generate ultrasound for actuating the gas-containing liquid and the gas permeable membrane, wherein the ultrasound source is integrally formed with the gas permeable membrane. 20. The degasse