Microfluidic devices for rotational manipulation of the fluidic interface between multiple flow streams
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-021/00
G01N-031/22
G01N-015/06
G01N-033/00
G01N-033/48
출원번호
US-0956467
(2001-09-18)
발명자
/ 주소
Weigl,Bernhard H.
Bardell,Ronald L.
Kamholz,Andrew
Munson,Matthew
Schilling,Eric
Hawkins,Kenneth
출원인 / 주소
University of Washington
대리인 / 주소
Seed IP Law Group PLLC
인용정보
피인용 횟수 :
10인용 특허 :
23
초록▼
Microfluidic devices and methods are provided for enhancing detection of a diffusion pattern formed by particles diffusing between at least two fluid streams in parallel laminar flow such that an interface is formed between them by increasing the dimension of the streams in the diffusion direction.
Microfluidic devices and methods are provided for enhancing detection of a diffusion pattern formed by particles diffusing between at least two fluid streams in parallel laminar flow such that an interface is formed between them by increasing the dimension of the streams in the diffusion direction. This may be accomplished by flowing the streams through a transforming turn, or by flowing the streams through a channel having diverging walls. Devices and methods are also provided for enhancing diffusion between two streams comprising changing the interface between said streams from a narrow interface to a broad interface.
대표청구항▼
We claim: 1. A microfluidic device comprising: a) at least two inlets; b) a diffusion channel in fluid communication with said inlets; c) a first transforming turn channel in fluid communication with, and arranged perpendicular to, said diffusion channel; d) a detection channel in fluid communic
We claim: 1. A microfluidic device comprising: a) at least two inlets; b) a diffusion channel in fluid communication with said inlets; c) a first transforming turn channel in fluid communication with, and arranged perpendicular to, said diffusion channel; d) a detection channel in fluid communication with, and arranged perpendicular to, said first transforming turn channel, wherein said detection channel is arranged perpendicular to said diffusion channel. 2. The microfluidic device of claim 1 further comprising: a) second transforming turn channel in fluid communication with, and disposed between, said inlets and said diffusion channel; and b) an inlet channel in fluid communication with, and disposed between said inlets and said second transforming turn channel, wherein said second transforming turn channel is arranged perpendicular to said diffusion channel and said inlet channel is arranged perpendicular to both said second transforming turn channel and said diffusion channel. 3. The microfluidic device of claim 1, wherein said diffusion channel has a dimension, b, in the direction of diffusion between fluid streams flowing therein, and a dimension, a, perpendicular to both the length of said diffusion channel and to said dimension, b, and wherein the aspect ratio, a/b, of said diffusion channel is greater than 1. 4. The microfluidic device of claim 1, wherein said detection channel has a dimension, b, in the direction of diffusion between fluid streams flowing therein and a dimension, a, perpendicular to both the length of said detection channel and to said dimension, b, and wherein the aspect ratio of said detection channel, a/b, is less than 1. 5. The microfluidic device of claim 2, wherein said inlet channel has a dimension, b, in the direction of diffusion between fluid streams flowing therein, and a dimension, a, perpendicular to both the length of said inlet channel and to said dimension, b, and wherein the aspect ratio of said inlet channel, a/b, is less than 1. 6. The microfluidic device of claim 1 comprising three inlets. 7. The microfluidic device of claim 1, wherein said detection channel has diverging walls. 8. The microfluidic device of claim 1 wherein said detection channel further comprises a detection region. 9. The microfluidic device of claim 8 wherein said detection region further comprises a transparent window on at least one side of said detection channel. 10. A method for enhancing detection of a diffusion pattern formed by particles diffusing between at least two fluid streams in parallel laminar flow such that an interface is formed between them, said method comprising: a) increasing the dimension of said streams in the direction of diffusion by flowing said streams through the microfluidic device of claim 1. 11. A method for enhancing detection of a diffusion pattern formed by particles diffusing between at least two fluid streams in parallel laminar flow such that an interface is formed between them, said method comprising: a) increasing the dimension of said streams in the direction of diffusion by flowing said streams through a channel having diverging walls perpendicular to said direction of diffusion. 12. The method of claim 10 also comprising detecting said diffusion pattern from a point outside the plane of flow and outside the plane of the interface between said streams. 13. The method of claim 11 comprising detecting said diffusion pattern from a point perpendicular to said direction of diffusion.
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