Abstract: A method and apparatus for determining the amount of water in an organic solvent solution, such as a DMSO solution. The apparatus comprises an infrared LED for emitting near infrared light; a laser diode collimator for forming a collimated light beam from the light emitted by the LED; a sample container holder for accepting a sample container containing a sample solution; a photodiode for generating an output signal that is related to the intensity of the collimated light beam after the collimated light beam has passed through the sample solution; and a control means for controlling the stability of the near infrared light emitted by the infrared LED by controlling an amount of current flowing through the infrared LED.

Abstract: A liquid dispensing apparatus for dispensing droplets of a liquid, and methods for measuring various fluid parameters of the liquid are described. The liquid dispensing apparatus comprises a container having a chamber for holding a liquid. An orifice is positioned at an end of the chamber for dispensing droplets of the liquid, the orifice being configured to retain the liquid in the container if the container is positioned with the orifice facing in a downward direction. An acoustic transducer means is at least partially positioned in the chamber for periodically propagating a focused acoustic beam toward the orifice and through at least some of the liquid while the liquid is contained in the chamber, with the focused acoustic beam being capable of causing a droplet of the liquid to be ejected from the orifice when a free surface of the liquid is within the depth of field of the acoustic transducer means.

Abstract: A wave-guide having an isolated coupling interface. In one variation, a constant negative pressure is maintained around the area surrounding the wave-guide. Coupling liquid may be directed to the tip of the wave-guide to provide the coupling interface between the wave-guide and a source fluid container. The suction from the constant negative pressure may remove excess coupling liquid and isolating the coupling liquid to the area around the tip of the wave-guide. The wave-guide assembly may also include mechanisms for adjusting the volume of fluid at the tip of the wave-guide. When the position of the wave-guide is displaced, fluid compensation mechanism may increase or decrease the volume of fluids at the distal end of the wave-guide to maintain proper coupling between the wave-guide and the source fluid container. Methods for utilizing negative pressure around the distal end of the wave-guide to isolate the coupling liquid are also described.

Abstract: The present invention comprises a method for calibrating a droplet dispensing apparatus using acoustic energy to dispense a plurality of droplet sets of a liquid from a source container into a plurality of target containers, with each droplet set being comprised of one or more individual droplets of the liquid, and with a liquid level of the liquid in the source container being measured before each of the droplet sets are dispensed. The average droplet volume for the individual droplets in each of the droplet sets is then calculated by detecting the presence of an indicator, such as a fluorescent chemical. Once the average droplet volume has been calculated, it is determined if the average droplet volume for each droplet set is acceptable or not acceptable. Where the average droplet volume is determined to be not acceptable, an existing droplet dispensing parameter is changed to a new droplet dispensing parameter that will cause the average droplet volume for that droplet set to change.

Abstract: An apparatus for high-throughput screening and generation of chemical libraries. The apparatus comprises computer controlled mechanical displacement devices and storage queues capable of managing a large number of source well plates and target well plates. In one aspect of the invention, precession alignment mechanisms are provided for efficient transfer of liquid from source well plates to target well plates. The apparatus may be configured such that any source fluid in any of the source well plates may be transferred to any target location within any of the target well plates in any sequence defined by the user. The computer controller may track the location of all the source well plates and target well plates and allow user defined association of any source well with any target well in any order defined by the user, thus providing an effective platform for chemical and biochemical synthesis and screening.

Abstract: A liquid dispensing apparatus for dispensing droplets of a liquid, and methods for measuring various fluid parameters of the liquid are described. The liquid dispensing apparatus comprises a container having a chamber for holding a liquid. An orifice is positioned at an end of the chamber for dispensing droplets of the liquid, the orifice being configured to retain the liquid in the container if the container is positioned with the orifice facing in a downward direction. An acoustic transducer means is at least partially positioned in the chamber for periodically propagating a focused acoustic beam toward the orifice and through at least some of the liquid while the liquid is contained in the chamber, with the focused acoustic beam being capable of causing a droplet of the liquid to be ejected from the orifice when a free surface of the liquid is within the depth of field of the acoustic transducer means.

Abstract: The present invention comprises a noncontact method for measuring viscosity and/or surface tension information of a liquid in a liquid containment structure. The steps of the method include exciting a surface of the liquid with an excitation burst of acoustic energy that causes the surface to oscillate; generating a positional data set comprised of a plurality of positional measurements related to the detected position of the surface at a plurality of times after the surface is excited; generating a frequency domain data set from the positional data set, the amplitude spectrum of the frequency domain data set comprising information about the oscillation frequency of at least one vibrational mode of the of the surface as it oscillates; and processing the frequency domain data set and/or the positional data set to yield information about the surface tension and/or viscosity of the liquid. A Fast Fourier Transform technique may be used in generating the frequency domain data set.

Abstract: A wave-guide having an isolated coupling interface. In one variation, a constant negative pressure is maintained around the area surrounding the wave-guide. Coupling liquid may be directed to the tip of the wave-guide to provide the coupling interface between the wave-guide and a source fluid container. The suction from the constant negative pressure may remove excess coupling liquid and isolating the coupling liquid to the area around the tip of the wave-guide. The wave-guide assembly may also include mechanisms for adjusting the volume of fluid at the tip of the wave-guide. When the position of the wave-guide is displaced, fluid compensation mechanism may increase or decrease the volume of fluids at the distal end of the wave-guide to maintain proper coupling between the wave-guide and the source fluid container. Methods for utilizing negative pressure around the distal end of the wave-guide to isolate the coupling liquid are also described.

Abstract: Devices useful in liquid transfer applications and in particular, devices for controlling the free surface of a source liquid in acoustic liquid ejection systems are disclosed. The devices advantageously maintain a source liquid to be transferred at a constant height and reduce disturbances formed in the liquid due to droplet ejection. In one variation, a well plate includes a plurality of wells each having a capillary. Source liquid in a well moves up the capillary due to capillary action and arrives at a certain height. The height arrived at remains constant despite the source liquid depleting from the well during the ejection process. The capillary can be separately joined or integral with the well plate. An acoustic wave emitter positioned adjacent to the well plate emits a focused acoustic beam that causes at least some of the liquid in the capillary to be ejected.

Abstract: An apparatus and method for droplet steering is disclosed herein. A throated structure having a nozzle defines a converging throat with an inlet and an outlet and a vectored fluid stream directed therethrough. The fluid stream is driven through the system via a vacuum pump. As the fluid approaches the outlet, its velocity increases and is drawn away from the nozzle through a connecting channel. As a droplet is ejected from a liquid therebelow, it will have a first trajectory until it is introduced to the high velocity fluid stream at the perimeter of the interior walls of the nozzle. The fluid accordingly steers the momentum of the droplet such that it obtains a second or corrected trajectory. Alternative variations include an electrically chargeable member, e.g., a pin, positionable to be in apposition to the outlet and capillary tubes for controlling the ejection surface of the pool of source fluid.

Abstract: An apparatus and method for droplet steering is disclosed herein. A throated structure having a nozzle defines a converging throat with an inlet and an outlet and a vectored fluid stream directed therethrough. The fluid stream is driven through the system via a vacuum pump. As the fluid approaches the outlet, its velocity increases and is drawn away from the nozzle through a connecting channel. As a droplet is ejected from a liquid therebelow, it will have a first trajectory until it is introduced to the high velocity fluid stream at the perimeter of the interior walls of the nozzle. The fluid accordingly steers the momentum of the droplet such that it obtains a second or corrected trajectory. Alternative variations include an electrically chargeable member, e.g., a pin, positionable to be in apposition to the outlet and capillary tubes for controlling the ejection surface of the pool of source fluid.

Abstract: A liquid dispensing apparatus for dispensing droplets of a liquid, and methods for measuring various fluid parameters of the liquid are described. The liquid dispensing apparatus comprises a container having a chamber for holding a liquid. An orifice is positioned at an end of the chamber for dispensing droplets of the liquid, the orifice being configured to retain the liquid in the container if the container is positioned with the orifice facing in a downward direction. An acoustic transducer means is at least partially positioned in the chamber for periodically propagating a focused acoustic beam toward the orifice and through at least some of the liquid while the liquid is contained in the chamber, with the focused acoustic beam being capable of causing a droplet of the liquid to be ejected from the orifice when a free surface of the liquid is within the depth of field of the acoustic transducer means.

Abstract: An apparatus and method for droplet steering is disclosed herein. A throated structure having a nozzle defines a converging throat with an inlet and an outlet and a vectored fluid stream directed therethrough. The fluid stream is driven through the system via a vacuum pump. As the fluid approaches the outlet, its velocity increases and is drawn away from the nozzle through a connecting channel. As a droplet is ejected from a liquid therebelow, it will have a first trajectory until it is introduced to the high velocity fluid stream at the perimeter of the interior walls of the nozzle. The fluid accordingly steers the momentum of the droplet such that it obtains a second or corrected trajectory. Alternative variations include an electrically chargeable member, e.g., a pin, positionable to be in apposition to the outlet and capillary tubes for controlling the ejection surface of the pool of source fluid.

Abstract: Devices useful in liquid transfer applications and in particular, devices for controlling the free surface of a source liquid in acoustic liquid ejection systems are disclosed. The devices advantageously maintain a source liquid to be transferred at a constant height and reduce disturbances formed in the liquid due to droplet ejection. In one variation, a well plate includes a plurality of wells each having a capillary. Source liquid in a well moves up the capillary due to capillary action and arrives at a certain height. The height arrived at remains constant despite the source liquid depleting from the well during the ejection process. The capillary can be separately joined or integral with the well plate. An acoustic wave emitter positioned adjacent to the well plate emits a focused acoustic beam that causes at least some of the liquid in the capillary to be ejected.

Abstract: An apparatus and method for droplet steering is disclosed herein. A throated structure having a nozzle defines a converging throat with an inlet and an outlet and a vectored fluid stream directed therethrough. The fluid stream is driven through the system via a vacuum pump. As the fluid approaches the outlet, its velocity increases and is drawn away from the nozzle through a connecting channel. As a droplet is ejected from a liquid therebelow, it will have a first trajectory until it is introduced to the high velocity fluid stream at the perimeter of the interior walls of the nozzle. The fluid accordingly steers the momentum of the droplet such that it obtains a second or corrected trajectory. Alternative variations include an electrically chargeable member, e.g., a pin, positionable to be in apposition to the outlet and capillary tubes for controlling the ejection surface of the pool of source fluid.

Abstract: A non-contact method for measuring viscosity and surface tension information of a liquid in a first liquid containment structure. The steps of the method include oscillating a free surface of the liquid in the liquid containment structure; detecting wave characteristics of the oscillating free surface; and analyzing the wave characteristics. The oscillating step may be performed by propagating an acoustic wave from an acoustic wave emitter, through said liquid containment structure, towards the free surface. The detecting step may be performed by delivering a series of acoustic pulses at the free surface and detecting acoustic reflections from the free surface as the oscillating free surface relaxes. The analyzing step can be performed by comparing the wave characteristics with a candidate liquid wave characteristics. Prior knowledge and behavior of the selected candidate liquid can thus be imputed to the source or sample liquid. The sample liquid can be one of photoresist, solder or a biological compound.

Abstract: An apparatus for high-throughput screening and/or generation of chemical libraries. In one aspect of the invention, a database is provided to track various parameters related to the source fluids in the source containment structure. Tracking changes of the source fluids in each source well may allow efficient utilization of source fluid and may also facilitate the high-throughput fluid transfer process. In one variation, data related to fluid level in each source well is maintained such that proper positioning of acoustic wave focus may be achieved. In another aspect of the invention, a database associated with one or more source fluid containment structure is provided and updated during the fluid transfer process. A second database providing a mapping profile with information regarding which fluid is to be transferred to what target is also provided. A third database may be generated to track fluid information in the target well plates.

Abstract: An apparatus for high-throughput screening and generation of chemical libraries. The apparatus comprises computer controlled mechanical displacement devices and storage queues capable of managing a large number of source well plates and target well plates. In one aspect of the invention, precession alignment mechanisms are provided for efficient transfer of liquid from source well plates to target well plates. The apparatus may be configured such that any source fluid in any of the source well plates may be transferred to any target location within any of the target well plates in any sequence defined by the user. The computer controller may track the location of all the source well plates and target well plates and allow user defined association of any source well with any target well in any order defined by the user, thus providing an effective platform for chemical and biochemical synthesis and screening.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.