Pipetting device for pipetting small volumes of liquids

1 . A pipetting device for pipetting dosing liquids, wherein pipetting comprises an aspiration and a dispensation of the dosing liquid, comprising a pipetting channel extending along a channel path, in which a piston configured at least partially as a solid body is accommodated to be movable along the channel path in order to change, by way of movement along the channel path, the pressure of a working gas that wets the piston on a dosing side facing the dosing liquid, wherein the pipetting device comprises a movement drive for the piston by means of which the piston is drivable to move along the channel path, wherein the pipetting device has a control unit for controlling the movement drive which is configured to operate the movement drive in dispensation operation in such a way that the piston is initially moved along the channel path in a dispensation direction increasing the pressure of the working gas, and is subsequently moved in an aspiration direction opposite the dispensation direction reducing the pressure on the working gas, wherein the control unit is configured to operate the movement drive for pipetting a predetermined single dosing volume of less than 5 μl in such a way that the piston is moved in the pipetting direction and its dosing side end face thereby sweeps over a pipetting volume which is not less than 1.4 times greater than the single dosing volume, and that the piston is subsequently moved in a counter pipetting direction opposite the pipetting direction and its dosing side end face thereby sweeps over a counter pipetting volume, wherein not more than 50 ms elapse between the beginning of the control signal from the control unit for driving the piston in the pipetting direction and the end of the control signal for driving the piston in the counter pipetting direction. 2 . The pipetting device according to claim 1 , wherein the control unit is configured to operate the movement drive for pipetting a predetermined single dosing volume of less than 5 μl in such a way that the piston is moved, starting from a start position, in the pipetting direction, and its dosing side end face thereby sweeps over a pipetting volume that is not less than 1.4 times greater than the single dosing volume, and that the piston is subsequently moved, starting from a reversal point in the movement direction, in a counter pipetting direction opposite the pipetting direction, and its dosing side end face thereby sweeps over a counter pipetting volume, wherein not more than 50 ms elapse between the time points at which the piston reaches the point, in the pipetting direction and in the counter pipetting direction respectively, which corresponds to the halfway point between the piston start position and the piston reversal point. 3 . The pipetting device according to claim 1 , wherein the pipetting volume is not less than five times and not more than 100 times. 4 . The pipetting device according to claim 1 , wherein the counter pipetting volume is equal to the pipetting volume or is less than the pipetting volume by the single dosing volume. 5 . The pipetting device according to claim 1 wherein the control unit is configured, for dispensing a predetermined single dosing volume of less than 5μ in jet mode, in which a predetermined dispensed liquid volume has left a pipette opening of the pipetting device before said liquid volume reaches a surface of a dosing target, to control the movement drive to reverse the movement direction of the piston from the dispensation direction into the aspiration direction before the predetermined liquid volume detaches from the pipette opening. 6 . The pipetting device according to claim 1 wherein the control unit is configured, for aspirating a predetermined single dosing volume of less than 5 μl, to operate the movement drive in such a way that the piston is moved in the aspiration direction and to control the movement drive to reverse the direction of the piston so that the piston is moved in the dispensation direction before the predetermined single dosing volume is completely aspirated. 7 . The pipetting device according to claim 1 , wherein the control unit and the movement drive are configured, in order to pipette a predetermined single dosing volume of less than 5 μl, to move the piston at a peak speed of at least 5000 μl/s and not more than 25,000 μl/s. 8 . The pipetting device according to claim 1 , wherein the pipetting device is configured for detachable accommodation of pipette tips with a nominal pipette cavity volume that is at least ten times. 9 . The pipetting device according to claim 1 , wherein the pipetting device is configured for aliquoting. 10 . The pipetting device according to claim 9 , wherein the pipetting device in aliquot operation is configured to carry out a plurality dispensation processes in which the pipetting volumes and the counter pipetting volumes respectively are the same size. 11 . The pipetting device according to claim 9 , wherein the pipetting device in aliquot operation is configured to carry out a plurality of dispensation processes in which the counter pipetting volumes respectively are less than the pipetting volumes by the single dosing volume. 12 . The pipetting device according to claim 1 , wherein the piston stroke in the pipetting direction and/or the piston stroke in the counter pipetting direction and/or the piston speed and/or the piston acceleration are changeable. 13 . The pipetting device according to claim 1 , wherein the control unit is configured to move the piston ( 14 ) for pipetting a predetermined single dosing volume of more than 5 μl at a peak speed of not more than 1000 μl/s. 14 . The pipetting device according to claim 1 , wherein it is configured to reproducibly pipette a single dosing volume that can be selected in a dosing volume range from 100 nl to 100 μl with a volume deviation of not more than 2% relative to the nominal volume. 15 . The pipetting device according to claim 1 , wherein the movement drive comprises a linear motor. 16 . The pipetting device according to claim 15 , wherein the piston is the rotor of the linear motor so that the electromagnetic field of the linear motor stator interacts directly with the piston ( 14 ) for its acceleration and deceleration. 17 . The pipetting device according to claim 16 , wherein the piston has a plurality of permanent magnets which are provided following one another along the channel path, with the polarization direction along the channel path, and with like poles directly opposite one another along the channel path. 18 . The pipetting device according to claim 1 , wherein it has a plurality of parallel pipetting channels which are arranged at the node points of a uniformly orthogonal column-row grid, wherein the distance of one pipetting channel to an adjacent parallel pipetting channel is not greater than 12 mm. 19 . A pipetting method for pipetting, thus for aspirating and dispensing, a predetermined single dosing volume of a dosing liquid, comprising the following steps: Providing a quantity of working gas and a pipetting volume, which is accessible through a pipette opening and is at least partially filled with the working gas, Providing a piston moveable along a channel path in the pipetting direction and in a counter pipetting direction opposite thereto, and Moving the piston along the channel path and thus changing the pressure of the working gas by means of the dosing side end face of the piston facing the pipette opening and by this means pipetting the dosing liquid, w