A microfluidic dispensing system may include diaphragm pumps that may be used for aspirating in corresponding ingredients via a nozzle or a tip from supply sources. Tips may be placed in contact with ingredient supply sources, and through repeated actuation of the diaphragm pumps, desired volumes of
A microfluidic dispensing system may include diaphragm pumps that may be used for aspirating in corresponding ingredients via a nozzle or a tip from supply sources. Tips may be placed in contact with ingredient supply sources, and through repeated actuation of the diaphragm pumps, desired volumes of ingredients are aspirated into the tips. In some cases, an air plug is aspirated into the tips before an ingredient. Once the desired volume of each ingredient is reached within each tip, the ingredients are dispensed from the tips through repeated actuation of corresponding diaphragm pumps.
대표청구항▼
1. A method of microfluidic dispensing of at least one ingredient, the method comprising: providing a microfluidic dispensing system comprising: a microfluidic chip;at least one diaphragm pump disposed within the microfluidic chip;at least one tip attached to the microfluidic chip;aspirating an air
1. A method of microfluidic dispensing of at least one ingredient, the method comprising: providing a microfluidic dispensing system comprising: a microfluidic chip;at least one diaphragm pump disposed within the microfluidic chip;at least one tip attached to the microfluidic chip;aspirating an air plug into the at least one tip by applying an opening pressure control pump signal for the air plug to the at least one diaphragm pump, actuating the at least one diaphragm pump, and creating a negative pressure gradient for the air plug in the at least one tip;aspirating at least one ingredient into the at least one tip by applying an opening pressure control pump signal for the at least one ingredient to the at least one diaphragm pump, actuating the at least one diaphragm pump, and creating a negative pressure gradient for the at least one ingredient in the at least one tip, the at least one ingredient being disposed adjacent to the air plug; anddispensing a portion of the at least one ingredient from the at least one tip by applying a closing pressure control pump signal to the at least one diaphragm pump, actuating the at least one diaphragm pump, and creating a positive pressure gradient in the at least one tip. 2. The method of microfluidic dispensing of the at least one ingredient of claim 1, further comprising providing a system fluid disposed adjacent to the air plug within the at least one tip. 3. The method of microfluidic dispensing of the at least one ingredient of claim 1, further comprising providing at least one first valve between the at least one diaphragm pump and the at least one tip. 4. The method of microfluidic dispensing of the at least one ingredient of claim 3, wherein aspirating the air plug into the at least one tip comprises: applying a first opening pressure control valve signal for the air plug to the at least one first valve, actuating the at least one first valve, and providing a first fluid channel between the at least one tip and the at least one diaphragm pump to draw the air plug into the at least one tip. 5. The method of microfluidic dispensing of the at least one ingredient of claim 4, further comprising providing at least one second valve disposed adjacent to the at least one diaphragm pump. 6. The method of microfluidic dispensing of the at least one ingredient of claim 5, wherein aspirating the air plug into the at least one tip comprises: applying a second opening pressure control valve signal for the air plug to the at least one second valve, actuating the at least one second valve, and providing a second fluid channel from the at least one diaphragm pump to draw excess fluid displaced by the air plug into a fluid reservoir. 7. The method of microfluidic dispensing of the at least one ingredient of claim 6, wherein aspirating the at least one ingredient into the at least one tip comprises: applying the first opening pressure control valve signal for the at least one ingredient to the at least one first valve, actuating the at least one first valve, and providing the first fluid channel between the at least one tip and the at least one diaphragm pump to draw the at least one ingredient into the at least one tip. 8. The method of microfluidic dispensing of the at least one ingredient of claim 7, wherein aspirating the at least one ingredient into the at least one tip comprises: applying the second opening pressure control valve signal for the at least one ingredient to the at least one second valve, actuating the at least one second valve, and providing a second fluid channel from the at least one diaphragm pump to draw excess fluid displaced by the at least one ingredient into the fluid reservoir. 9. The method of microfluidic dispensing of the at least one ingredient of claim 8, further comprising a step between aspirating the air plug into the at least one tip and aspirating the at least one ingredient into the at least one tip comprising: applying a first closing pressure control valve signal to the at least one first valve, actuating the at least one first valve, and closing the first fluid channel between the at least one diaphragm pump and the at least one tip; andapplying the closing pressure control pump signal to the at least one diaphragm pump, actuating the at least one diaphragm pump, and displacing excess fluid displaced by the air plug into the fluid reservoir. 10. The method of microfluidic dispensing of the at least one ingredient of claim 9, wherein dispensing the at least one ingredient from the at least one tip comprises: applying a second closing pressure control valve signal to the at least one second valve, actuating the at least one second valve, and closing the second fluid channel between the at least one diaphragm pump and the fluid reservoir; andapplying the closing pressure control pump signal to the at least one diaphragm pump, actuating the at least one diaphragm pump, and creating the positive pressure gradient in the at least one tip. 11. The method of microfluidic dispensing of the at least one ingredient of claim 1, further comprising: providing a plurality of diaphragm pumps disposed within the microfluidic chip;providing a plurality of tips corresponding to the plurality of diaphragm pumps and the plurality of tips attached to the microfluidic chip;simultaneously aspirating a plurality of corresponding air plugs into each of the plurality of tips by applying an opening pressure control pump signal for each of the plurality of air plugs to each of the corresponding diaphragm pumps, actuating the corresponding diaphragm pumps, and creating a negative pressure gradient for each of the plurality of air plugs in each of the plurality of tips;simultaneously aspirating a plurality of corresponding ingredients into each of the plurality of tips by applying an opening pressure control pump signal for each of the plurality of corresponding ingredients to each of the corresponding diaphragm pumps, actuating the corresponding diaphragm pumps, and creating a negative pressure gradient for each of the plurality of corresponding ingredients in each of the plurality of tips, each of the corresponding ingredients being disposed adjacent to each of the corresponding air plugs; andsimultaneously dispensing the plurality of corresponding ingredients from each of the plurality of tips by applying a closing pressure control pump signal to each of the corresponding diaphragm pumps, actuating the corresponding diaphragm pumps, and creating a positive pressure gradient in each of the plurality of tips. 12. The method of microfluidic dispensing of the plurality of ingredients of claim 11, wherein simultaneously aspirating the plurality of corresponding ingredients into each of the plurality of tips comprises positioning a multiwell plate containing the plurality of corresponding ingredients in alignment with the plurality of tips. 13. The method of microfluidic dispensing of the plurality of ingredients of claim 11, wherein simultaneously dispensing the plurality of corresponding ingredients from each of the plurality of tips comprises positioning a multiwell plate for receiving the plurality of corresponding ingredients in alignment with the plurality of tips. 14. The method of microfluidic dispensing of the at least one ingredient of claim 1, further comprising removing the at least one tip from the microfluidic chip.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (64)
Wolk Jeffrey A. ; McReynolds Richard J. ; Parce J. Wallace, Alignment of multicomponent microfabricated structures.
Chow Calvin Y. H. ; Parce John Wallace ; McReynolds Richard J. ; Kennedy Colin B. ; Bousse Luc J., Controller/detector interfaces for microfluidic systems.
Wada, H. Garrett; Kopf-Sill, Anne R.; Alajoki, Marja Liisa; Parce, J. Wallace; Wang, Benjamin N.; Chow, Andrea W.; Dubrow, Robert S., Focusing of microparticles in microfluidic systems.
Unger, Marc A.; Chou, Hou-Pu; Manger, Ian D.; Fernandes, Dave; Yi, Yong, Microfluidic devices for introducing and dispensing fluids from microfluidic systems.
Chow Andrea W. ; Kopf-Sill Anne R. ; Parce J. Wallace ; Sundberg Steven A., Microfluidic devices, systems and methods for performing integrated reactions and separations.
Chow Calvin Y. H. ; Parce J. Wallace, Variable control of electroosmotic and/or electrophoretic forces within a fluid-containing structure via electrical forc.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.