Polymerase chain reaction using metallic glass-coated microwire
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-015/00
H01B-003/10
H01B-003/02
B05D-005/12
출원번호
US-0098052
(2005-04-04)
등록번호
US-7368166
(2008-05-06)
발명자
/ 주소
Goldstein,Alan H.
LaCourse,William C.
Liebermann,Howard H.
출원인 / 주소
Demodulation, Inc.
대리인 / 주소
Ernest D. Buff & Associates, LLC
인용정보
피인용 횟수 :
1인용 특허 :
3
초록▼
A metallic glass-coated microwire has controllable surface porosity. The porosity is achieved by etching the metallic glass-coated microwire or other shapes of glass-coated bodies with acid after annealing to produce a multi-phase glass coating. Porous metallic glass-coated microwires are found to m
A metallic glass-coated microwire has controllable surface porosity. The porosity is achieved by etching the metallic glass-coated microwire or other shapes of glass-coated bodies with acid after annealing to produce a multi-phase glass coating. Porous metallic glass-coated microwires are found to make superior PCR machines, which find use in a variety of in vivo, biochemical, and chemical sensors. Advantageously, the PCR apparatus is smaller, less expensive to construct than conventional units. It readily carries out in vivo passive or active operations.
대표청구항▼
What is claimed is: 1. A metallic glass-coated microwire having a metallic core, wherein said glass has a thermal contraction coefficient less than that of said metallic core by a preselected value, said preselected value being such that said glass is under residual compression, interfacial bonding
What is claimed is: 1. A metallic glass-coated microwire having a metallic core, wherein said glass has a thermal contraction coefficient less than that of said metallic core by a preselected value, said preselected value being such that said glass is under residual compression, interfacial bonding between said glass and said metallic core is substantially uniform, and surface cracking and bond breaks between metal and glass are substantially prevented, said glass coating having a controllable amount and configuration of surface porosity defined by a plurality of pores in a surface of said glass coating and at least some of said pores being filled with reagents for PCR in order to detect specific biological species. 2. The metallic glass-coated microwire of claim 1, wherein said glass coating has a surface area and at least 5% surface porosity as determined by the surface area. 3. The metallic glass-coated microwire of claim 2, wherein said glass coating has a surface area and at least 20% surface porosity as determined by the surface area. 4. The metallic glass-coated microwire of claim 3, wherein said glass coating has a surface area and at least 50% surface porosity as determined by the surface area. 5. The metallic glass-coated microwire of claim 1, wherein said metallic core is comprised of an amorphous alloy. 6. The metallic glass-coated microwire of claim 5, wherein said glass coating has a surface area and at least 5% surface porosity as determined by the surface area. 7. The metallic glass-coated microwire of claim 6, wherein said glass coating has a surface area and at least 20% surface porosity as determined by the surface area. 8. The metallic glass-coated microwire of claim 7, wherein said glass coating has a surface area and at least 50% surface porosity as determined by the surface area. 9. An in vivo PCR device, incorporating the metallic glass-coated microwire of claim 8. 10. The metallic glass-coated microwire of claim 1, in which the metallic core is electrically conductive to enable its resistance heating as part of the PCR process. 11. The metallic glass-coated microwire of claim 1, in which the metallic core is ferromagnetic to enable its heating with a high frequency magnetic field as part of the PCR process. 12. A detector, incorporating the metallic glass-coated microwire of claim 1, and wherein highly polar materials of PCR affect the magnetic output of said metallic glass-coated microwire. 13. A biological species sensor comprising a metallic glass-coated microwire as recited by claim 1. 14. A metallic glass-coated microwire having a metallic core, wherein said glass has a thermal contraction coefficient less than that of said metallic core by a preselected value, said preselected value being such that said glass is under residual compression, interfacial bonding between said glass and said metallic core is substantially uniform, and surface cracking and bond breaks between metal and glass are substantially prevented, said glass coating having a controllable amount and configuration of surface porosity defined by a plurality of pores in a surface of said glass coating and at least some of said pores being filled with reagents for PCR in order to detect specific chemical species. 15. The metallic glass-coated microwire of claim 14, wherein said metallic core is comprised of an amorphous alloy. 16. The metallic glass-coated microwire of claim 15, in which the metallic core is electrically conductive to enable its resistance heating as part of the PCR process. 17. The metallic glass-coated microwire of claim 15, in which the metallic core is ferromagnetic to enable its heating with high frequency magnetic field as part of the PCR process. 18. A chemical species sensor comprising a metallic glass-coated microwire as recited by claim 14. 19. A method for producing a porous metallic glass-coated microwire, comprising the steps of: a. selecting glass that will have multiple phases after heat treatment; b. thereafter, preparing a metallic glass-coated microwire, wherein said coating comprises said glass; c. heat-treating said glass for time at temperature sufficient to cause formation of multiple phases; d. immersing said heat-treated, multi-phase glass in selected acid mixture; and e. continuing step "d" until a desired level of glass porosity is achieved. 20. A process for making porous metallic glass-coated microwire, comprising the steps of: a. selecting glass that will have multiple phases after heat treatment; b. drawing a glass-coated microwire wherein the coating comprises said selected glass; c. subjecting said glass-coated microwire to a post-drawing process comprising the steps of: i. carrying out an acid evaporation/condensation process by placing the metallic glass-coated microwire in a buret containing a select mixture of sulfuric, hydrochloric, and nitric acids, followed by evaporation in a flask containing air, so that an acid/air mixture within the flask is heated to create acid vapor; ii. heat treating said glass-coated microwire; iii. continuing said heat treatment for at least 20 minutes at a temperature of about 450-700�� C., to allow said acid vapor to flow continuously over said glass for substantially the entire period of said heat treatment until the desired level of glass porosity results; and iv. cleansing said acid vapor in a condenser before it is liberated.
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이 특허에 인용된 특허 (3)
Chiriac Horia,ROX ; Barariu Firuta,ROX ; Ovari Adrian Tibor,ROX ; Pop Gheorghe,ROX, Amorphous and nanocrystalline glass-covered wires.
Gorynin Igor V. (Leningrad SUX) Farmakovsky Boris V. (Leningrad SUX) Khinsky Alexander P. (Leningrad SUX) Kalogina Karina V. (Leningrad SUX) Riviere V. Alfredo (Caracas MA VEX) Szekely Julian (Weston, Method of casting amorphous and microcrystalline microwires.
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