Method for transferring a target between locations

We claim: 1. A method for transferring a target from a first fluid at a first location to a second location, the target being bound to a solid phase substrate to form a target bound solid phase substrate, comprising: forming a non-concave meniscus with the first fluid; providing a transfer device with a lower transfer surface and an upper surface; positioning a transfer region of the lower transfer surface of the transfer device in axial alignment with and in spaced relation to the non-concave meniscus so as to provide a non-liquid air gap therebetween; generating a force adjacent to the upper surface of the transfer device that is sufficient to attract the target bound solid phase substrate toward the transfer region; drawing the target bound solid phase substrate from the first fluid, through the non-liquid air gap, and to the transfer region of the transfer device with the force; maintaining the target bound solid phase substrate adjacent to the transfer region of the transfer device with the force; aligning the transfer region with the second location, spaced from the first location; reducing the force on the target bound solid phase substrate such that the force is insufficient to maintain the target bound solid phase substrate adjacent to the transfer region of the transfer device so as to release the target bound solid phase substrate from the transfer region of the transfer device and allow the target bound solid phase substrate to pass to the second location. 2. The method of claim 1 wherein the step of forming the non-concave meniscus with the first fluid includes the additional steps of: depositing the first fluid in a sample container; and inserting an insert into the sample container, the insert causing the first fluid in the sample container to have the non-concave meniscus. 3. The method of claim 1 wherein the step of forming the non-concave meniscus with the first fluid includes the additional step of depositing the first fluid in a sample container having a hydrophobic inner surface, the hydrophobic inner surface causing the first fluid in the sample container to have the non-concave meniscus. 4. The method of claim 1 comprising the additional steps of: positioning an intermediate fluid between the first fluid and the transfer region; and passing the target bound solid phase substrate through the intermediate fluid as the target bound solid phase substrate are drawn from the first fluid to the transfer region.