INTEGRATED MICROFLUIDIC PROBE (iMFP) AND METHODS OF USE THEREOF
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IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
H01J-049/04
H01J-049/00
출원번호
17976967
(2022-10-31)
공개번호
20230238231
(2023-07-27)
발명자
/ 주소
Laskin, Julia
Li, Xiangtang
출원인 / 주소
Laskin, Julia
인용정보
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초록▼
The microfluidic probe is configured for nano spray desorption electro spray ionization (nano-DESI) with fixed positioning of the channels therein for consistent and stable formation of a liquid bridge for nano-DESI and mass spectrometry imaging (MSI). The microfluidic probe may incorporate a shear
The microfluidic probe is configured for nano spray desorption electro spray ionization (nano-DESI) with fixed positioning of the channels therein for consistent and stable formation of a liquid bridge for nano-DESI and mass spectrometry imaging (MSI). The microfluidic probe may incorporate a shear force probe for sensing and maintaining a desired distance between the probe and the sample surface being analyzed. The microfluidic probe includes a primary solvent channel and a spray channel intersecting at a fixed orientation relative to each other at an opening in a tip of the probe. The microfluidic probe is constructed from a plastic material.
대표청구항▼
1. A system for analyzing a sample on a surface, the system comprising: a probe comprising a primary channel and a spray channel intersecting at a fixed orientation relative to each other at an opening in a tip of the probe, the probe is constructed from a plastic material, wherein the probe is oper
1. A system for analyzing a sample on a surface, the system comprising: a probe comprising a primary channel and a spray channel intersecting at a fixed orientation relative to each other at an opening in a tip of the probe, the probe is constructed from a plastic material, wherein the probe is operable to create a liquid bridge at the opening between the primary channel, the spray channel, and the surface where the opening is located proximal to the surface and a liquid is flowed through the primary channel into the spray channel across the opening; anda nanospray emitter in fluid communication with the opening via the spray channel. 2. The system of claim 1, wherein the plastic material is a thermoplastic material. 3. The system of claim 2, wherein the thermoplastic material is at least one of cyclic olefin copolymer, cyclic olefin polymer, cyclic block copolymer, polymethylmethacrylate, polycarbonate, polystyrene, polyvinyl chloride, polyethylene terephthalate glycol, polyethylene, polyimide, styrene copolymer, parylene C, polytetrafluoroethylene, polydimethylsiloxane, and epoxies. 4. The system of claim 3, wherein the thermoplastic material consists essentially of cyclic olefin copolymer. 5. The system of claim 1, wherein the metal wire is a copper wire. 6. The system of claim 1, wherein the metal wire is around 100 μm in diameter. 7. A microfluidic probe for mass spectrometry imaging comprising a system according to claim 1. 8. A first method for fabricating a system for analyzing a sample, the method comprising: disposing a metal wire on a first thermoplastic sheet;sandwiching the metal wire on the first thermoplastic sheet between a first glass wafer and a second glass wafer, thus forming an assembly;heating the assembly;cooling the assembly;removing the wire from the assembly, thus forming a channel in the assembly;plasma treating the assembly and a second thermoplastic sheet; andcoupling the assembly to the second thermoplastic sheet, thus forming the system. 9. The first method of claim 8, wherein the step of heating the assembly includes placing the assembly in one of a double-sided hot plate and an oven. 10. The first method of claim 8, further comprising a step of forming a sampling port on the system. 11. The first method of claim 10, wherein the sampling port is formed by shearing and polishing an edge of the system. 12. The first method of claim 8, further comprising a step of forming a nanospray emitter on the system. 13. The first method of claim 8, wherein the assembly is coupled to the second thermoplastic sheet via a hot press. 14. The first method of claim 12, wherein the nanospray emitter is formed by shearing and polishing an edge of the system. 15. The first method of claim 8, wherein at least one of the first thermoplastic sheet and the second thermoplastic sheet includes a cyclic olefin copolymer material. 16. A second method for fabricating a system for analyzing a sample, the method comprising: disposing a metal wire in a predetermined position;disposing the positioned metal wire on a glass wafer, thus forming a molded metal wire pattern;disposing a thermoplastic sheet on the molded metal wire; andimprinting the molded metal wire pattern into the thermoplastic sheet, thus forming the system. 17. The second method of claim 16, wherein the molded metal wire pattern is imprinted into the thermoplastic sheet via a hot press. 18. The second method of claim 16, further comprising a step of aligning the system at a mass spectrometer inlet. 19. The second method of claim 16, wherein the metal wire includes a plurality of metal wires, thus forming a plurality of systems with a single thermoplastic sheet. 20. The first method of claim 16, wherein the thermoplastic sheet includes a cyclic olefin copolymer material.
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