Having Biomaterial Component Or Integrated With Living Organism Patents (Class 438/1)
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Publication number: 20100279434Abstract: This invention refers to surface modification/functionalization of Nitride nanomaterials and electrochemistry and optical measurement based upon such functionalized Nitride materials. With this invention a variety of bio-molecules such as DNA, protein, and antigens can be immobilized on the surface for measurement to realize ultra-sensitive chemical- and bio-sensing applications.Type: ApplicationFiled: February 13, 2008Publication date: November 4, 2010Inventors: Kuei-Hsien Chen, Chin-Pei Chen, Abhitjit Ganguly, Li-Chyong Chen, Ying-Chin Chang
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Patent number: 7821655Abstract: An apparatus and process for in-situ measurement of thin film thickness, ash rate, and end point generally include generating and measuring shallow angle interference patterns. The apparatus generally includes a chamber having a first viewing port and a second viewing port. The first viewing port includes receiving optics configured to receive light at a shallow angle from a surface of a substrate processed therein. The second port includes a broadband illumination source and is preferably disposed in a sidewall opposite the receiving optics. The process includes calculating the thin film thickness, ash rate, and end point from the interference patterns.Type: GrantFiled: February 8, 2005Date of Patent: October 26, 2010Assignee: Axcelis Technologies, Inc.Inventors: Alan Janos, Montien Saubhayana
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Publication number: 20100243984Abstract: This invention is directed toward a bioelectronic cell gated nanodevice. The bioelectronic cell gated nanodevice comprises a plurality of bioelectric cells deposited on a fiber of a nanodevice. The bioelectronic cells of the nanodevice act as a gate, allowing current to be transmitted when the bioelectronic cells are exposed to an actuating chemical. The present invention also provides methods for constructing such a device.Type: ApplicationFiled: October 18, 2006Publication date: September 30, 2010Applicant: Board of Regents of University of NebraskaInventors: Ravi Saraf, Sanjun Niu, Mehmet Inan, Vikas Berry
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Patent number: 7767102Abstract: The present invention is directed to methods to harvest, integrate and exploit nanomaterials, and particularly elongated nanowire materials. The invention provides methods for harvesting nanowires that include selectively etching a sacrificial layer placed on a nanowire growth substrate to remove nanowires. The invention also provides methods for integrating nanowires into electronic devices that include placing an outer surface of a cylinder in contact with a fluid suspension of nanowires and rolling the nanowire coated cylinder to deposit nanowires onto a surface. Methods are also provided to deposit nanowires using an ink-jet printer or an aperture to align nanowires. Additional aspects of the invention provide methods for preventing gate shorts in nanowire based transistors. Additional methods for harvesting and integrating nanowires are provided.Type: GrantFiled: August 16, 2007Date of Patent: August 3, 2010Assignee: Nanosys, Inc.Inventors: Francesco Lemmi, David P. Stumbo
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Patent number: 7750232Abstract: A multi-crystalline silicon germanium bulk crystal with microscopic compositional distribution is adapted for use in solar cells to substantially increase conversion efficiency. By controlling the average Ge concentration between 0.1 and 8.0 mole percent, significant improvements are attained with respect to short circuit current density and conversion efficiency.Type: GrantFiled: July 8, 2005Date of Patent: July 6, 2010Assignee: Sumco Solar CorporationInventors: Kazuo Nakajima, Wugen Pan, Kozo Fujiwara, Noritaka Usami
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Patent number: 7749774Abstract: A method and apparatus for the manipulation of colloidal particles and biomolecules at the interface between an insulating electrode such as silicon oxide and an electrolyte solution. Light-controlled electrokinetic assembly of particles near surfaces relies on the combination of three functional elements: the AC electric field-induced assembly of planar aggregates; the patterning of the electrolyte/silicon oxide/silicon interface to exert spatial control over the assembly process; and the real-time control of the assembly process via external illumination. The present invention provides a set of fundamental operations enabling interactive control over the creation and placement of planar arrays of several types of particles and biomolecules and the manipulation of array shape and size. The present invention enables sample preparation and handling for diagnostic assays and biochemical analysis in an array format, and the functional integration of these operations.Type: GrantFiled: August 21, 2003Date of Patent: July 6, 2010Inventor: Michael Seul
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Patent number: 7740933Abstract: Nanoporous structures are constructed that have hydrophilic regions separated by hydrophobic regions. The porous, hydrophilic regions have reaction sites suitable for use in a bioassay application and have a higher density of reaction sites than that of a non-porous (2-D) surface. The structure may be made by depositing a layer of a matrix material (e.g., an organosilicate) and a porogen, and then crosslinking the matrix material to form a nanohybrid composite structure. The porogen is decomposed to form pores within the matrix material, and a reactive gas phase species (e.g., ozone) is patternwise directed onto a surface of the matrix material. Ultraviolet light (directed through a mask) activates the gas phase species to form a reactive species that then reacts with the matrix material to make it hydrophilic. The porogen may be decomposed thermally or by exposing it to an oxidizing atmosphere in the presence of ultraviolet light.Type: GrantFiled: June 8, 2007Date of Patent: June 22, 2010Assignee: International Business Machines CorporationInventors: Ho-Cheol Kim, Robert Dennis Miller
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Publication number: 20100124791Abstract: Improved method to fabricate a microelectronic device provided with at least one circuit to detect biological elements, comprising the steps of: a) forming transistors, depositing at least one layer in at least one insulating material (141) coating said transistors, forming one or more holes (143) in said layer of insulating material (141), so as to expose the upper face of the respective gate (135) of first-type transistors, filling the holes with a gate material, b) removing, at least in part, the respective gate (135) of the first-type transistors, whilst the gate of second-type transistors is protected, the method prior to or at the same time as said removal conducted at step b) further comprising the removal of said gate material.Type: ApplicationFiled: November 18, 2009Publication date: May 20, 2010Applicant: COMMISSARIAT A L'ENERGIE ATOMIQUEInventors: Julien BUCKLEY, Olivier Billoint, Guillaume Delapierre
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Patent number: 7700923Abstract: An image acquisition device having a photoconductor, a substrate including a detector array and an interlayer between the photoconductor and the substrate is disclosed. The interlayer is formed of molecules having a first ligand selectively binding the substrate and a second ligand selectively binding the photoconductor.Type: GrantFiled: September 20, 2008Date of Patent: April 20, 2010Assignee: Varian Medical Systems, Inc.Inventors: Michael C. Green, Robert M. Sutherland
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Patent number: 7695981Abstract: A seed layer is formed on a substrate using a first biological agent. The seed layer may comprise densified nanoparticles which are bound to the biological agent. The seed layer is then used for a deposition of a metal layer, such as a barrier layer, an interconnect layer, a cap layer and/or a bus line for a solid state device.Type: GrantFiled: May 15, 2006Date of Patent: April 13, 2010Assignee: Siluria Technologies, Inc.Inventors: Haixia Dai, Khashayar Pakbaz, Michael Spaid, Theo Nikiforov
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Patent number: 7691433Abstract: The invention relates to a method for a structured application of molecules on a strip conductor and to a molecular memory matrix. The inventive method makes it possible, for the first time, to economically and simply apply any number of molecular memory elements on the strip conductor in a structured and targeted way, thereby making available, also for the first time, a memory matrix at a molecular level.Type: GrantFiled: November 30, 2005Date of Patent: April 6, 2010Assignee: Forschungszentrum Julich GmbHInventors: Stephan Kronholz, Silvia Karthäuser
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Publication number: 20100065892Abstract: A bio-sensor includes a gate dielectric formed on a silicon semiconductor substrate, a gate electrode of a conductive diamond film formed on the gate dielectric, probe molecules bonded on the gate electrode for detecting biomolecules, and source/drain regions formed on the semiconductor substrate at the sides of the gate electrode. The gate electrode is a comb shape or a lattice shape.Type: ApplicationFiled: October 23, 2008Publication date: March 18, 2010Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGYInventors: Gyuweon Hwang, Wook Seong Lee, Jeung-hyun Jeong, Jong-Keuk Park, Young Joon Baik
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Patent number: 7652370Abstract: Provided are a plastic microfabricated structure, and a microfabricated thermal device, a microfabricated reactor, a microfabricated reactor array and a micro array using the same, which may be applied to a bio chip, and the present invention may fabricate the plastic microfabricated structure for providing a heating region by means of insulating plastic, which has a thin thickness, flatness enough to allow a photolithography process to be performed, thermal isolation in its some or total area, and a small thermal mass, and on top of the heating region of the plastic microfabricated structure, a heater, a temperature sensor for sensing a temperature, an electrode, and an electrode pad are formed to thereby fabricate the microfabricated heating device, whereby element may be readily fabricated at a low cost, and the heating region is formed of a plastic thin layer, so that uniform temperature control is possible even with a low power, and various samples may be thermally treated at a fast speed to obtain theirType: GrantFiled: July 27, 2004Date of Patent: January 26, 2010Assignee: Electronics and Telecommunications Research InstituteInventors: Dae Sik Lee, Hae Sik Yang, Yong Taik Lim, Kwang Hyo Chung, Sung Jin Kim, Se Ho Park, Kyu Won Kim, Yun Tae Kim
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Patent number: 7651872Abstract: A biomolecular array includes a substrate across which is distributed an array of discrete regions of a porous substance formed from a porogen-containing organosilicate material. The porous substance is designed to bind chemical targets useful in biotechnology applications, such as gene expression, protein, antibody, and antigen experiments. The regions are preferably optically isolated from each other and may be shaped to enhance detection of optical radiation emanating from the porous substance, e.g., as a result of irradiation of the regions with ultraviolet light. The discrete regions may be configured as microscopic wells within the substrate, or they may reside on top of the substrate in the form of microscopic mesas.Type: GrantFiled: February 8, 2008Date of Patent: January 26, 2010Assignee: International Business Machines CorporationInventors: Mark Whitney Hart, Ho-Cheol Kim, Robert Dennis Miller, Gregory Michael Wallraff
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Publication number: 20090305437Abstract: A method of forming an integrated circuit layer material is described, comprising depositing a layer of templates on a substrate, said template including a first binding site having an affinity for the substrate, a second binding site having an affinity for a target integrated circuit material and a protecting material coupled to the second binding site via a labile linkage to prevent the binding site from binding to the target integrated circuit material; exposing the template to an external stimulus to degrade the labile linkage; removing the protecting material; and binding the integrated circuit material to the second binding site.Type: ApplicationFiled: March 8, 2007Publication date: December 10, 2009Applicant: CAMBRIOS TECHNOLOGIES CORPORATIONInventors: Pierre-Marc Allemand, Manfred Heidecker, Gregory L. Kirk, Xina Quan, Cheng-I Wang
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Patent number: 7625766Abstract: A step wall is formed over a substrate. Catalytic material of different composition than the step wall is provided proximate thereto. A carbon nanotube is grown from the catalytic material along the step wall generally parallel to the substrate. A method of fabricating integrated circuitry includes forming a step wall over a semiconductor substrate. Catalytic material is provided proximate the step wall. An elevationally outer surface of the catalytic material is masked with a masking material. The catalytic material and the masking material are patterned to form an exposed end sidewall of the catalytic material proximate the step wall, with remaining of the elevationally outer surface of the catalytic material being masked. A carbon nanotube is grown from the exposed end sidewall of the catalytic material along the step wall generally parallel to the semiconductor substrate. The carbon nanotube is incorporated into a circuit component of an integrated circuit.Type: GrantFiled: June 2, 2006Date of Patent: December 1, 2009Assignee: Micron Technology, Inc.Inventor: Gurtej S. Sandhu
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Patent number: 7615384Abstract: A method of manufacturing a semiconductor device with the use of a laser crystallization method is provided which can prevent grain boundaries from being formed in a channel forming region of a TFT and which can avoid substantial reduction in TFT mobility, reduction in on current, and increase in off current due to the grain boundaries, and a semiconductor device manufactured by using the manufacturing method is also provided. Stripe shape or rectangular shape unevenness is formed only in a driver circuit. Continuous wave laser light is irradiated to a semiconductor film formed on an insulating film along the stripe unevenness of the insulating film or along a major axis or minor axis of the rectangular unevenness. Although it is most preferable to use the continuous wave laser light at this point, pulse wave laser light may also be used.Type: GrantFiled: June 6, 2005Date of Patent: November 10, 2009Assignee: Semiconductor Energy Laboratory Co., Ltd.Inventor: Shunpei Yamazaki
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Publication number: 20090242405Abstract: Examples of the present invention include methods of assembling structures, such as nanostructures, at predetermined locations on a substrate. A voltage between spaced-apart electrodes supported by substrate attracts the structures to the substrate, and positional registration can be provided the substrate using topographic features such as wells. Examples of the present invention also include devices, such as electronic and optoelectronic devices, prepared by such methods.Type: ApplicationFiled: January 9, 2009Publication date: October 1, 2009Applicant: The Penn State Research FoundationInventors: Theresa S. Mayer, Christine D. Keating, Mingwei Li, Thomas Morrow, Jaekyun Kim
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Publication number: 20090242879Abstract: A modified isolated polypeptide comprising an amino acid sequence encoding a photocatalytic unit of a photosynthetic organism being capable of covalent attachment to a solid surface and having a photocatalytic activity when attached thereto is disclosed.Type: ApplicationFiled: March 30, 2009Publication date: October 1, 2009Applicant: Ramot At Tel Aviv University Ltd.Inventors: Chanoch Carmeli, Itai Carmeli, Shachar Richter, Ludmila Frolov
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Publication number: 20090229669Abstract: Protein-based photovoltaic cells and the manufacture and use of protein-based photovoltaic cells are described. In one embodiment, bacteriorhodopsin from Halobacterium salinarum, which undergoes structural transitions when irradiated with a given wavelength of light, is used as the protein in the protein-based photovoltaic cells. In another embodiment, mutant bacteriorhodopsin from H. salinarum is used. Exposure of the protein to sunlight causes proton transfer across a membrane resulting in the generation of an electrical charge. The protein can be oriented and/or layered on a substrate and modified by mutation to enhance transmembrane proton transfer, covalent binding to a substrate and layering. The protein-based photovoltaic cells sequentially or simultaneously generate hydrogen gas from water or salt, which also can be harnessed to produce electricity.Type: ApplicationFiled: February 4, 2009Publication date: September 17, 2009Applicant: University of ConnecticutInventors: Robert R. Birge, Rekha Rangarajan
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Patent number: 7569850Abstract: A lipid bilayer on a nano-template comprising a nanotube or nanowire and a lipid bilayer around the nanotube or nanowire. One embodiment provides a method of fabricating a lipid bilayer on a nano-template comprising the steps of providing a nanotube or nanowire and forming a lipid bilayer around the polymer cushion. One embodiment provides a protein pore in the lipid bilayer. In one embodiment the protein pore is sensitive to specific agents.Type: GrantFiled: January 23, 2006Date of Patent: August 4, 2009Assignee: Lawrence Livermore National Security, LLCInventors: Aleksandr Noy, Alexander B. Artyukhin, Olgica Bakajin, Pieter Stoeve
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Publication number: 20090146133Abstract: A method for the fabrication of a semiconductor structure that includes areas that have different crystalline orientation and semiconductor structure formed thereby. The disclosed method allows fabrication of a semiconductor structure that has areas of different semiconducting materials. The method employs templated crystal growth using a Vapor-Liquid-Solid (VLS) growth process. A silicon semiconductor substrate having a first crystal orientation direction is etched to have an array of holes into its surface. A separation layer is formed on the inner surface of the hole for appropriate applications. A growth catalyst is placed at the bottom of the hole and a VLS crystal growth process is initiated to form a nanowire. The resultant nanowire crystal has a second different crystal orientation which is templated by the geometry of the hole.Type: ApplicationFiled: December 10, 2008Publication date: June 11, 2009Inventors: Mikael T. Bjoerk, Oliver Hayden, Heike E. Riel, Walter Heinrich Riess, Heinz Schmid
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Publication number: 20090062639Abstract: Systems, devices and automated methods for minimally invasive surgery. A device is fabricated of bio-compatible semiconductor elements, and can be assembled, delivered, navigated and implanted by automated methods, using Nuclear Magnetic Resonance (NMR) technology.Type: ApplicationFiled: August 27, 2007Publication date: March 5, 2009Inventor: William Harrison Zurn
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Patent number: 7488593Abstract: One-dimensional ring structures form M13 viruses were constructed by two genetic modifications encoding binding peptides and synthesis of a heterobifunctional linker molecule. The bifunctional viruses displayed an anti-streptavidin peptide and hexahistidine (SEQ ID NO: 4) peptide at opposite ends of the virus as pIII and pIX fusions. Stoichiometic addition of the streptavidin-NiNTA linker molecule led to the reversible formation of virus-based nanorings with circumferences corresponding to lengths of the packagable DNAs. These virus-based ring structures can be further engineered to nucleate inorganic materials and form metallic, magnetic, or semiconductor nanorings using trifunctionalized viruses.Type: GrantFiled: October 15, 2004Date of Patent: February 10, 2009Assignees: Board of Regents, The University of Texas System, Massachusetts Institute of TechnologyInventors: Angela M. Belcher, Beau Peelle, Ki Tae Nam
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Patent number: 7465597Abstract: A method for manufacturing a biosensor is provided. The method may include positioning a shadow mask containing a pattern of a plurality of feature sets over a substantially planar base layer containing a plurality of registration points. The method may also include forming at least one of the plurality of feature sets on the substantially planar base layer by selectively depositing a layer of a conductive material on the substantially planar base layer by passing the conductive material through the pattern of the shadow mask and removing the shadow mask from the substantially planar base layer. Alternatively, the method may include providing a laminate structure including a substantially planar base layer containing a plurality of registration points and a photoresist layer containing a pattern of a plurality of feature sets.Type: GrantFiled: June 29, 2006Date of Patent: December 16, 2008Assignee: Home Diagnostics, Inc.Inventors: Greta Wegner, Natasha Popovich
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Publication number: 20080283939Abstract: The present invention relates to a Field-Effect Transistor (FET) and, more particularly, to a Dielectric-Modulated Field-Effect Transistor (DMFET) and a method of fabricating the same. A DMFET according to an embodiment of the present invention comprises a substrate in which a source and a drain are formed, wherein the source and the drain are spaced apart from each other, a gate formed on a region between the source and the drain, of the substrate, wherein at least part of the gate is spaced apart from the substrate, biomolecules formed below a region spaced apart from the substrate, of the gate, and a linker for combining the gate and the biomolecules.Type: ApplicationFiled: January 15, 2008Publication date: November 20, 2008Inventors: Yang-Kyu Choi, Hyungsoon Im, Bonsang Gu
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Patent number: 7439081Abstract: A conductive layer in an integrated circuit is formed as a sandwich having multiple sublayers, including at least one sublayer of oriented carbon nanotubes. The conductive layer sandwich preferably contains two sublayers of carbon nanotubes, in which the carbon nanotube orientation in one sublayer is substantially perpendicular to that of the other layer. The conductive layer sandwich preferably contains one or more additional sublayers of a conductive material, such as a metal. In one embodiment, oriented carbon nanotubes are created by forming a series of parallel surface ridges, covering the top and one side of the ridges with a catalyst inhibitor, and growing carbon nanotubes horizontally from the uncovered vertical sides of the ridges. In another embodiment, oriented carbon nanotubes are grown on the surface of a conductive material in the presence of a directional flow of reactant gases and a catalyst.Type: GrantFiled: October 25, 2006Date of Patent: October 21, 2008Assignee: International Business Machines CorporationInventors: Toshiharu Furukawa, Mark Charles Hakey, Steven John Holmes, David Vaclav Horak, Charles William Koburger III, Peter H. Mitchell
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Publication number: 20080220541Abstract: A process for structuring a surface layer of an object includes applying bio-components to the surface of the object that carry away surface material. The bio-components are contained in at least one of a nutrient and osmotic protective medium. The at least one of a nutrient and osmotic protective medium having the bio-components contained therein is removed after the surface material is carried away from the object surface.Type: ApplicationFiled: May 14, 2008Publication date: September 11, 2008Applicant: Micronas GmbHInventors: Bernhard Wolf, Hans-Jurgen Gahle, Gunter Igel, Werner Baumann, Ralf Ehret, Mirko Lehmann
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Publication number: 20080213923Abstract: The present invention is directed to a memory device having very high storage density capability. In general, the memory device includes an array of individual memory cells which store information that is assigned a value based on the molecular contents of the memory cell. In a preferred embodiment, the molecules utilized for storing information in the memory cells may be single-strand polynucleotides, for instance single-strand oligonucleotides of between about 5 and about 20 monomer units. The present invention is also directed to methods and systems useful for writing and reading the molecular-based memory devices. In particular, the devices may be written and read via modified atomic force microscopy processes.Type: ApplicationFiled: May 5, 2008Publication date: September 4, 2008Applicant: Clemson UniversityInventors: Thomas Boland, Thomas E. Wagner
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Publication number: 20080199974Abstract: A met4hod is disclosed for functionalizing biosensors. The biosensors are based on semiconductor chips mounted on a finished processed wafer. They are provided with sensor fields placed thereupon, which are arranged in any array, and, to be precise, for carrying out a functionalization, for example, with organic molecules such as nucleic acids like DNA, RNA and PNA or with their derivatives, proteins, sugar molecules, or antibodies.Type: ApplicationFiled: March 18, 2005Publication date: August 21, 2008Inventors: Alexander Frey, Franz Hofmann, Petra Schindler-Bauer
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Patent number: 7393699Abstract: Systems and methods are disclosed to fabricate an electronic device on a substrate by genetically engineering first, second, third, and fourth viruses each having a plurality of selective binding sites; forming first, second, third, and fourth viral biotemplates by immersing the first, second, third, and fourth viruses in one or more solutions with nano materials coupleable to the binding sites of the viruses; self-assembling a gate with the first viral biotemplate having one site attachable to the substrate; self-assembling a source above the gate with the second viral biotemplate; self-assembling a channel with the third viral biotemplate having one site attachable to the second viral biotemplate; and self-assembling a drain with the fourth viral biotemplate having one site attachable to the third viral biotemplate.Type: GrantFiled: June 12, 2006Date of Patent: July 1, 2008Inventor: Bao Q. Tran
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Patent number: 7393935Abstract: A method for selectively arranging ferritin in a specified inorganic material part formed on a substrate is provided. The method for arranging ferritin of the present invention is characterized in that ferritin is selectively arranged on a part including titanium or silicon nitride (SiN) in an efficient manner by adding a nonionic surface active agent. Also, selective arrangement capability of ferritin can be markedly improved by modifying the N-terminus of ferritin with a certain peptide.Type: GrantFiled: March 21, 2006Date of Patent: July 1, 2008Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Hiroya Kirimura, Ichiro Yamashita
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Publication number: 20080135413Abstract: A method of delivering a treatment substance to a target substance in a treatment zone is disclosed. The method comprises providing a treatment substance responsive to an electric or magnetic field such that the treatment substance experiences a kinetic force when disposed in said field, providing an electric or magnetic field extending through a treatment zone, and disposing the treatment substance in the electric or magnetic field such that the treatment substance moves towards the treatment zone and contributes to a reaction with the target substance. A corresponding system is also disclosed.Type: ApplicationFiled: December 11, 2006Publication date: June 12, 2008Inventors: David G. Thomas, David Reynolds
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Publication number: 20080113352Abstract: Described is a method for electrochemically patterning a microelectrode array (MEA) with at least two different kinds of macromolecules. Said method comprising the steps of: providing a platform with a surface that comprises individually addressable conductive microelectrode surfaces; covering said platform surface with an adlayer of resistant polymer; desorbing said adlayer from a first kind of conductive microelectrodes intended for the selective adsorption of a first kind of macromolecules, in particular proteins, by applying a potential; subjecting the desorbed surfaces to the first macromolecule under conditions such that said first macromolecule adsorbs to said desorbed surfaces, and repeating the desorption/adsorption steps with a second or further kind of macromolecules until all kinds of desired macromolecules are adsorbed. A microchip array produced by the inventive method is also described. Such chip arrays can be used to study a large diversity of biological interactions, e.g.Type: ApplicationFiled: September 20, 2005Publication date: May 15, 2008Inventors: Janos Voros, Marcus Textor, Clarence Tang, Beat Keller
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Patent number: 7368297Abstract: A method for forming catalytic sites at the surface of a support, which includes: depositing on the surface a liquid film (3) containing elements (4) of a living matter, capable of moving when subjected to an electric and/or magnetic field and designed to form catalytic traces or alterations at the surface of the substrate; applying an electric and/or magnetic field to the film such that, under the effect of the field, at least some of the living matter elements move and assemble on zones of the substrate surface; and eliminating the liquid film and the living matter at the substrate surface while allowing the traces left by the living element at the substrate surface to subsist so as to constitute the catalytic sites at the locations of the traces.Type: GrantFiled: November 7, 2002Date of Patent: May 6, 2008Assignee: Institut National Polytechnique de GrenobleInventors: Michel Pons, Francis Baillet
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Publication number: 20080085551Abstract: The present invention is directed to a microfluidic biochip based on an agglutination reaction that is frequently used in qualitative typing in the diagnostic medicine field by realizing a specimen inlet, a reagent inlet, a split microchannel, transfer microchannels, a chaos micromixer, a reaction microchamber, a microfilter, a passive microvalve, and an outlet on a plastic microchip. Particularly, the biochip of the present invention is characterized in that portability thereof is superior and a small amount (about 1 ?l) of each of a specimen and a reagent is used. In addition, the biochip of the present invention can be cheaply made through conventional photolithography, electroplating, injection molding, and bonding. Therefore, by utilizing the microfluidic biochip for blood typing according to the present invention, a point-of-care diagnosis for performing blood typing based on an agglutination reaction at any place becomes possible.Type: ApplicationFiled: April 5, 2007Publication date: April 10, 2008Applicant: POSTECH ACADEMY-INDUSTRY FOUNDATIONInventors: Dong-Sung Kim, Tai-Hun Kwon
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Patent number: 7354777Abstract: A biomolecular array includes a substrate across which is distributed an array of discrete regions of a porous substance formed from a porogen-containing organosilicate material. The porous substance is designed to bind chemical targets useful in biotechnology applications, such as gene expression, protein, antibody, and antigen experiments. The regions are preferably optically isolated from each other and may be shaped to enhance detection of optical radiation emanating from the porous substance, e.g., as a result of irradiation of the regions with ultraviolet light. The discrete regions may be configured as microscopic wells within the substrate, or they may reside on top of the substrate in the form of microscopic mesas.Type: GrantFiled: July 19, 2005Date of Patent: April 8, 2008Assignee: International Business Machines CorporationInventors: Mark Whitney Hart, Ho-Cheol Kim, Robert Dennis Miller, Gregory Michael Wallraff
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Publication number: 20080067502Abstract: Spreading or keep out zones may be formed in integrated circuit packages by altering the roughness of package surfaces. The surface roughness can be altered by applying or growing particles having a dimension less than 500 nanometers. Hydrophilic surfaces may be made hemi-wicking and hydrophobic surfaces may be made hemi-wicking by particles of the same general characteristics.Type: ApplicationFiled: September 14, 2006Publication date: March 20, 2008Inventors: Nirupama Chakrapani, Vijay S. Wakharkar, Chris Matayabas
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Patent number: 7316930Abstract: An improved gene chip system is arranged with vertically stacked photodiodes for sensing luminescence of genetic material. When genetic samples are combined with a reagent in an array of wells on a substrate, the reaction may cause light of a specified color to emanate from certain well locations. Vertically stacked photodiodes are provided that sense each color and intensity of the light at each well location. The vertically stacked photodiodes provide an image sensor that may be integrally constructed with the substrate and wells used for a gene chip system. The illumination data, which includes which wells are luminescent, the color of light, and the intensity of light in each illuminated cell, may be analyzed to determine properties of the genetic sample.Type: GrantFiled: April 21, 2003Date of Patent: January 8, 2008Assignee: National Semiconductor CorporationInventor: Joseph Domenick Montalbo
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Publication number: 20080003586Abstract: Elongated molecules are stretched across a substrate by controlled fluid flow.Type: ApplicationFiled: June 30, 2006Publication date: January 3, 2008Inventors: Roderick A. Hyde, Lowell L. Wood
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Publication number: 20080003587Abstract: Elongated molecules are stretched across a substrate by controlled fluid flow.Type: ApplicationFiled: August 9, 2006Publication date: January 3, 2008Inventors: Roderick A. Hyde, Lowell L. Wood
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Patent number: 7297557Abstract: A method of attaching a molecular layer to a substrate includes attaching a temporary protecting group(s) to a molecule having a molecular switching moiety with first and second connecting groups attached to opposed ends thereof. The temporary protecting group(s) is attached to the first and/or second connecting group so as to cause the opposed ends of the switching moiety to exhibit a difference in hydrophilicity such that one of the ends remains at at least one of a water/solvent interface and a water/air interface, and the other end remains in air during a Langmuir-Blodgett (LB) process. An LB film is formed on the interface. The temporary protecting group(s) is removed. The substrate is passed through the LB film to form the molecular layer chemically bonded on the substrate. The difference in hydrophilicity between the opposed ends causes formation of a substantially well-oriented, uniform LB film at the interface.Type: GrantFiled: June 30, 2004Date of Patent: November 20, 2007Assignee: Hewlett-Packard Development Company, L.P.Inventors: Sean X. Zhang, Zhang-lin Zhou, Yong Chen
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Publication number: 20070238164Abstract: Disclosed herein is a plastic microchip used in counting the number of microparticles and a method for manufacturing the same and, more particularly, to a plastic microchip including a negative microgrid pattern formed on a lower substrate, a solvent channel and solvent inlets for a solvent welding process, and a method for manufacturing the plastic microchip by injection molding the lower substrate on which a negative microgrid pattern is formed and by injecting a solvent through the solvent inlets so as to fix an upper substrate to the lower substrate. According to the present invention, it is possible to form a microgrid pattern of a relatively narrow width deeply and uniformly as a negative microgrid pattern is formed on the lower substrate and thereby to provide a clear microgrid pattern, thus facilitating accurate observation of microparticles.Type: ApplicationFiled: April 5, 2007Publication date: October 11, 2007Inventor: Hyun Jin Kim
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Patent number: 7192799Abstract: A method of making a matrix type piezoelectric/electrostrictive device having a plurality of pillar shaped piezoelectric/electrostrictive elements, each having a piezoelectric/electrostrictive substance and at least a pair of electrodes being formed on the sides of the substance, are vertically provided on a thick ceramic substrate, such that the device is driven by displacement of the piezoelectric/electrostrictive substance. In this device, the piezoelectric/electrostrictive elements are integrally bonded to the ceramic substrate and independently arranged in two dimensions. The percentage of transgranularly fractured crystal grains on at least the sides of the piezoelectric/electrostrictive substance on which the electrodes are formed is 10% or less. The unit forms a curved surface near a joined section between the substance and the substrate.Type: GrantFiled: April 28, 2004Date of Patent: March 20, 2007Assignee: NGK Insulators, Ltd.Inventors: Yukihisa Takeuchi, Masashi Watanabe, Koji Kimura, Tatsuo Kawaguchi
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Patent number: 7141446Abstract: A concentrator for detecting biological and/or chemical materials in an environment. The concentrator comprises an engineered superlattice structure having alternating layers of elemental, binary or ternary group III-group V, or group IV-group IV semiconducting materials. A method for detecting biological and/or chemical materials in an environment using the concentrator. The method comprising exposing the concentrator to the biological and/or chemical materials in an environment and activating the superlattice structure optically or electrically followed by the detection of the biological and/or chemical materials.Type: GrantFiled: September 10, 2004Date of Patent: November 28, 2006Assignee: HRL Laboratories, LLCInventors: Peter D. Brewer, David Chow
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Patent number: 7138281Abstract: A method includes (a) putting a multielectrodic chip lithographed in a wafer that contains between 2 and 2000 individually polarisable electrodes, in contact with a solution or suspension that includes modified colloidal particles with a (bio)chemical recognition element; (b) applying to an electrode of the multielectrodic chip, a potential between ?1 and +2V vs. Ag/AgCl saturated, for a period of time between 1 and 300 seconds; (c) washing the chip after this stage (b); and (d) repeat the steps (b) and (c) as many times as needed to deposit a (bio)chemical recognition element, same or different to the one or ones previously deposited, on each one of the electrodes of that chip. The method is applicable for the fabrication of multisensors, particularly in chips and arrays for analytical and diagnostic applications.Type: GrantFiled: January 16, 2003Date of Patent: November 21, 2006Assignee: Universitat Rovira I VirgiliInventors: Ioannis Katakis, Monica Campas Homs
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Patent number: 7129097Abstract: A conductive layer in an integrated circuit is formed as a sandwich having multiple sublayers, including at least one sublayer of oriented carbon nanotubes. The conductive layer sandwich preferably contains two sublayers of carbon nanotubes, in which the carbon nanotube orientation in one sublayer is substantially perpendicular to that of the other layer. The conductive layer sandwich preferably contains one or more additional sublayers of a conductive material, such as a metal. In one embodiment, oriented carbon nanotubes are created by forming a series of parallel surface ridges, covering the top and one side of the ridges with a catalyst inhibitor, and growing carbon nanotubes horizontally from the uncovered vertical sides of the ridges. In another embodiment, oriented carbon nanotubes are grown on the surface of a conductive material in the presence of a directional flow of reactant gases and a catalyst.Type: GrantFiled: July 29, 2004Date of Patent: October 31, 2006Assignee: International Business Machines CorporationInventors: Toshiharu Furukawa, Mark Charles Hakey, Steven John Holmes, David Vaclav Horak, Charles William Koburger, III, Peter H. Mitchell
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Patent number: 7091517Abstract: The present invention provides a method for preparing a silicon substrate and a silicon substrate having a silicon surface comprising a pattern of covalently bound monolayers. Each of the monolayers comprises an alkyne, wherein at least a portion of each monolayer is no more than about 5 molecules of the alkyne wide.Type: GrantFiled: July 9, 2004Date of Patent: August 15, 2006Assignee: Purdue Research FoundationInventors: Jillian M. Buriak, Patrick T. Hurley
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Patent number: 7077982Abstract: A molecular electric wire that is formed of an environmentally benign ecological material and enables a microscopic wiring, a molecular electric wire circuit using the molecular electric wire, and the like are provided. The molecular electric wire comprises a rod-shaped organic molecule and an electroconductive material, the electroconductive material being carried by the rod-shaped organic molecule, and the molecular electric wire circuit is formed by using the molecular electric wire.Type: GrantFiled: March 25, 2002Date of Patent: July 18, 2006Assignee: Fuji Photo Film Co., Ltd.Inventors: Takatoshi Kinoshita, Shintaro Washizu
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Patent number: 7067328Abstract: Methods and systems for depositing nanomaterials onto a receiving substrate and optionally for depositing those materials in a desired orientation, that comprise providing nanomaterials on a transfer substrate and contacting the nanomaterials with an adherent material disposed upon a surface or portions of a surface of a receiving substrate. Orientation is optionally provided by moving the transfer and receiving substrates relative to each other during the transfer process.Type: GrantFiled: September 25, 2003Date of Patent: June 27, 2006Assignee: Nanosys, Inc.Inventors: Robert Dubrow, Linda T. Romano, David Stumbo