Microfluidic mixing using continuous acceleration/deceleration methodology
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01F-009/02
출원번호
US-0073722
(2008-03-10)
등록번호
US-8632243
(2014-01-21)
발명자
/ 주소
Leung, Wallace Woon-Fong
출원인 / 주소
The Hong Kong Polytechnic University
대리인 / 주소
The Hong Kong Polytechnic University
인용정보
피인용 횟수 :
0인용 특허 :
24
초록▼
The present invention relates to a method for microfluidic mixing in a “lab-on-a-chip” environment. The methodology focuses on constant acceleration and deceleration about a mean angular speed with a rotating disk serving as the mixing platform. The methodology results in good mixing between differe
The present invention relates to a method for microfluidic mixing in a “lab-on-a-chip” environment. The methodology focuses on constant acceleration and deceleration about a mean angular speed with a rotating disk serving as the mixing platform. The methodology results in good mixing between different fluids.
대표청구항▼
1. A method of mixing different species in microfluidic-volumes of fluids, comprising the steps of: adding at least a first and second fluids, the first fluid contains at least a first species and the second fluid contains at least a second species, in an amount of from about 1-100 μL to a cavity in
1. A method of mixing different species in microfluidic-volumes of fluids, comprising the steps of: adding at least a first and second fluids, the first fluid contains at least a first species and the second fluid contains at least a second species, in an amount of from about 1-100 μL to a cavity in a rotating platform;rotating said rotating platform by varying the angular speed over time to generate circulatory flow, by continuous acceleration and deceleration, in said cavity for mixing said first and second species containing in said first and second fluids;if said first and second species are not sufficient diffused, then re-rotating said rotating platform by varying the angular speed over time to generate circulatory flow, by continuous acceleration and deceleration, in said cavity for mixing the first and second species in said first and second fluids; anddetermining whether the first and second species are sufficiently diffused after said mixing,wherein said cavity is closed, preventing the first and second fluids from entering and leaving said cavity, while the rotating platform is rotating. 2. The method of mixing different species in microfluidic-volumes of fluids of claim 1, further comprises positioning said rotating platform in an analyzer and if said first and second species are sufficiently diffused, then analyzing the diffused species for a desired analyte. 3. The method of mixing different species in microfluidic-volumes of fluids of claim 2, wherein if said desired analyte does not reach a prescribed concentration, then re-rotating said rotating platform by varying the angular speed over time. 4. The method of mixing different species in microfluidic-volumes of fluids of claim 2, wherein if said desired analyte does not reach a prescribed concentration, then add fluid containing said species of claim 1 in an amount of from about 1-100 μL to the cavity in the rotating platform of claim 1, and re-rotating said rotating platform by varying the angular speed over time. 5. The method of mixing different species in microfluidic-volumes of fluids of claim 3, wherein if said first and second species are sufficiently diffused, then analyzing the diffused species for a desired analyte. 6. The method of mixing different species in microfluidic-volumes of fluids of claim 4, wherein if said first and second species are sufficiently diffused, then analyzing the diffused species for a desired analyte. 7. The method of mixing different species in microfluidic-volumes of fluids of claim 1, wherein said varying speed represents continuous speed change over time. 8. The method of mixing different species in microfluidic-volumes of fluids of claim 1, wherein sufficient diffusion occurs as fluid layers are bent or folded over each other due to continuous changing flow directions such that diffusion at molecular level can take place over thinner fluid layers. 9. The method of mixing different species in microfluidic-volumes of fluids of claim 1, wherein sufficient diffusion occurs when the fluids are 50% diffused volume-to-volume. 10. The method of mixing different species in microfluidic-volumes of fluids of claim 1, wherein said angular speed has a minimum speed of 1 rev/min to 500 rev/min. 11. The method of mixing different species in microfluidic-volumes of fluids of claim 1, wherein said angular speed has a maximum speed of over 1000 rev/min. 12. The method of mixing different species in microfluidic-volumes of fluids of claim 1, further comprising rotating in a direction through at least a fraction of a full rotation to generate circulatory flow for effecting sufficient diffusion during a first period without introducing an active mixing device in physical contact with the fluids. 13. The method of mixing different species in microfluidic-volumes of fluids of claim 12, wherein said direction is clockwise or counter-clockwise. 14. The method of mixing different species in microfluidic-volumes of fluids of claim 12, wherein the fluids flow through at least a fraction of a full rotation with rotation direction opposite to the rotation direction of claim 12 during a second period following the first period to generate circulatory flow without introducing an active mixing device in physical contact with the fluids. 15. A method of mixing different species in microfluidic-volumes of fluids of claim 12, wherein said fluids rotating in a clockwise direction through a clockwise rotation for one or more periods, and the same fluids rotating in an anticlockwise rotation for one or more periods, to generate circulatory flow for effecting diffusion without introducing an active mixing device in physical contact with the fluids.
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