Patent application number | Description | Published |
20090017571 | SENSING DEVICES FROM MOLECULAR ELECTRONIC DEVICES - The present invention generally relates to the fabrication of molecular electronics devices from molecular wires and Single Wall Nanotubes (SWNT). In one embodiment, the cutting of a SWNT is achieved by opening a window of small width by lithography patterning of a protective layer on top of the SWNT, followed by applying an oxygen plasma to the exposed SWNT portion. In another embodiment, the gap of a cut SWNT is reconnected by one or more difunctional molecules having appropriate lengths reacting to the functional groups on the cut SWNT ends to form covalent bonds. In another embodiment, the gap of a cut SWNT gap is filled with a self-assembled monolayer from derivatives of novel contorted hexabenzocoranenes. In yet another embodiment, a device based on molecular wire reconnecting a cut SWNT is used as a sensor to detect a biological binding event. | 01-15-2009 |
20090027036 | SENSING DEVICES FROM MOLECULAR ELECTRONIC DEVICES UTILIZING HEXABENZOCORONENES - The present invention generally relates to the fabrication of molecular electronics devices from molecular wires and Single Wall Nanotubes (SWNT). In one embodiment, the cutting of a SWNT is achieved by opening a window of small width by lithography patterning of a protective layer on top of the SWNT, followed by applying an oxygen plasma to the exposed SWNT portion. In another embodiment, the gap of a cut SWNT is reconnected by one or more difunctional molecules having appropriate lengths reacting to the functional groups on the cut SWNT ends to form covalent bonds. In another embodiment, the gap of a cut SWNT gap is filled with a self-assembled monolayer from derivatives of novel contorted hexabenzocoranenes. In yet another embodiment, a device based on molecular wire reconnecting a cut SWNT is used as a sensor to detect a biological binding event. | 01-29-2009 |
20110168562 | Nanopore and Carbon Nanotube Based DNA Sequencer - The present invention provides a device for analyzing the composition of a heteropolymer comprising a carbon nanotube through which the heteropolymer is driven by electrophoresis. The carbon nanotube also serves as one electrode in a reading circuit. One end of the carbon nanotube is held in close proximity to a second electrode, and each end of the carbon nanotube is functionalized with flexibly-tethered chemical-recognition moieties, such that one will bind one site on the emerging polymer, and the second will bind another site in close proximity, generating an electrical signal between the two electrodes when the circuit is completed by the process of chemical recognition. | 07-14-2011 |
20110275062 | Systems And Methods For Integrating A Single DNA Molecule Into A Molecular Electronic Device - The disclosed subject matter provides a techniques for precisely and/or functionally cutting carbon nanotubes, e.g., single walled carbon nanotubes (“SWNTs”) and integrating a single nucleic acid molecule (e.g., a DNA molecule) into a gap formed into the carbon nanotubes. In one aspect, a method of fabricating a molecular electronic device includes disposing a SWNT on a base layer, forming a gap in the SWNT using a lithographic process, and disposing a single DNA strand across the gap so that each end of the nucleic acid contacts a gap termini. The disclosed subject matter also provides techniques for measuring the electrical properties (charge transport) of a DNA molecule which is integrated into an SWNT. Furthermore, a molecular electronic device including an SWNT with an integrated nucleic acid molecule is disclosed. | 11-10-2011 |
20130285680 | SYSTEMS AND METHODS FOR SINGLE-MOLECULE DETECTION USING NANOTUBES - A method for single-molecule detection is provided and uses a carbon nanotube having a probe entity attached thereto to define a first state of the carbon nanotube. The carbon nanotube is introduced to a target entity to define a second state of the carbon nanotube. The electrical conductance of the carbon nanotube in the first and second states is compared to detect the presence of a biomolecular entity. A system for single-molecule detection including a carbon nanotube is also provided. | 10-31-2013 |
20160024128 | SOLID-STATE MATERIALS FORMED OF MOLECULAR CLUSTERS AND METHOD OF FORMING SAME - A solid-state material comprising a solid-state compound is provided. The solid-state compound has the formula: [Cluster1][Cluster2] | 01-28-2016 |
20160030640 | CARBON NANOTUBES AND GRAPHENE PATCHES AND IMPLANTS FOR BIOLOGICAL TISSUE - The present invention relates to a novel composition comprising carbon nanotubes and/or graphene and a supporting material that can be used as an implant, patch or construct for the treatment, repair or replacement of biological tissue, including musculoskeletal tissue, fascia tissue, dura tissue, epidermal tissue, blood vessels and arteries, and organs. The present invention is also a method of manufacturing the novel composition, and a method of using the novel composition to treat, repair or replace biological tissue. | 02-04-2016 |
Patent application number | Description | Published |
20110017979 | HIGH-PERFORMANCE GATE OXIDES SUCH AS FOR GRAPHENE FIELD-EFFECT TRANSISTORS OR CARBON NANOTUBES - An apparatus or method can include forming a graphene layer including a working surface, forming a polyvinyl alcohol (PVA) layer upon the working surface of the graphene layer, and forming a dielectric layer upon the PVA layer. In an example, the PVA layer can be activated and the dielectric layer can be deposited on an activated portion of the PVA layer. In an example, an electronic device can include such apparatus, such as included as a portion of graphene field-effect transistor (GFET), or one or more other devices. | 01-27-2011 |
20140099764 | GRAPHENE DEVICE INCLUDING A PVA LAYER OR FORMED USING A PVA LAYER - An apparatus or method can include forming a graphene layer including a working surface, forming a polyvinyl alcohol (PVA) layer upon the working surface of the graphene layer, and forming a dielectric layer upon the PVA layer. In an example, the PVA layer can be activated and the dielectric layer can be deposited on an activated portion of the PVA layer. In an example, an electronic device can include such apparatus, such as included as a portion of graphene field-effect transistor (GFET), or one or more other devices. | 04-10-2014 |
20140183736 | GRAPHENE ELECTRODES FOR ELECTRONIC DEVICES - A laminated graphene device is demonstrated as a cathode. In one example the devices include organic photovoltaic devices. The measured properties demonstrate work-function matching via contact doping. Devices and method shown also provide increased power conversion efficiency due to transparency. These findings indicate that flexible, light-weight all carbon devices, such as solar cells, can be constructed using graphene as the cathode material. | 07-03-2014 |
Patent application number | Description | Published |
20130077900 | Durable drawer retainer apparatus and method of use - A full extension ball bearing drawer slide assembly comprised of a fixed member attached to a cabinet piece, a middle member slidingly engaged with the fixed member with a set of linear bearings, a drawer member attached to a drawer piece slidingly engaged with the middle member via a second set of linear bearings, and a drawer retainer mechanism attached to the drawer member and in adjustable contact with the drawer member. The drawer retainer mechanism is comprised of a frame attached to the drawer member, a housing seated in the frame, a detent fitted in the frame and biased by a helical spring adjacent a post. The post has a threaded section engaged with a threaded hole in the frame. The detent, biased by the helical spring on the post, is forced towards the housing by a raised indention in a race of the fixed member. | 03-28-2013 |
20130287324 | Pressure Release Slide Latch Mechanism - A pressure release slide latch mechanism for a drawer slide assembly comprises an outer slide, an intermediate slide mounted in the outer slide, and an inner slide mounted in the intermediate slide, a channel plate having a track portion and a guide block attached to the outer slide and a carriage slidingly engaged and biased along the track portion. A pin of a follower pivotally attached to the inner slide engages the guide block to releasably maintain the drawer slide assembly in a closed position and releases upon an inward force applied to the drawer slide assembly. | 10-31-2013 |
20140115826 | DURABLE LOW-VIBRATION LONG ARM HINGE APPARATUS - Disclosed is a long arm quick release hinge comprised of a hinge cup pivotally connected to a hinge body with a hinge pin via a hinge arm and a link in a four-bar linkage arrangement. The link is a collection of plates with interlocking projections and indentions arranged adjacent to each other and separated by resilient shock absorbing spacers. The hinge body is adjustably connected to a connecting plate with an overlay screw and an adjustment screw. | 05-01-2014 |
20140312755 | PRESSURE RELEASE SLIDE LATCH MECHANISM - A pressure release slide latch mechanism for a drawer slide assembly comprises an outer slide, an intermediate slide mounted in the outer slide, and an inner slide mounted in the intermediate slide, a channel plate having a track portion and a guide block attached to the outer slide and a carriage slidingly engaged and biased along the track portion. A pin of a follower pivotally attached to the inner slide engages the guide block to releasably maintain the drawer slide assembly in a closed position and releases upon an inward force applied to the drawer slide assembly. A set of chamfers is formed on the pressure release slide latch mechanism to prevent binding of the drawer slide assembly. | 10-23-2014 |
20140366325 | DURABLE LOW-VIBRATION LONG ARM HINGE APPARATUS - Disclosed is a long arm quick release hinge comprised of a hinge cup pivotally connected to a hinge body with a hinge pin via a hinge arm and a link in a four-bar linkage arrangement. The link is a collection of plates with interlocking projections and indentions arranged adjacent to each other and separated by resilient shock absorbing spacers. The hinge body is adjustably connected to a connecting plate with an overlay screw and an adjustment screw. | 12-18-2014 |
20150048730 | DURABLE DRAWER RETAINER APPARATUS AND METHOD OF USE - A foil extension ball bearing drawer slide assembly comprised of a fixed member attached to a cabinet piece, a middle member slidingly engaged with the fixed member with a set of linear bearings, a drawer member attached to a drawer piece slidingly engaged with the middle member via a second set of linear bearings, and a drawer retainer mechanism attached to the drawer member and in adjustable contact with the drawer member. The drawer retainer mechanism is comprised of a housing attached to the drawer member, a piston slidingly fitted in the frame and biased by a biasing member. The piston, biased by the biasing member, is forced towards the housing by a raised indention in a race of the fixed member. | 02-19-2015 |
20150091424 | PRESSURE RELEASE SLIDE LATCH MECHANISM - A pressure release slide latch mechanism for a drawer slide assembly comprises an outer slide, an intermediate slide mounted in the outer slide, and an inner slide mounted in the intermediate slide, a channel plate having a track portion and a guide block attached to the outer slide and a carriage slidingly engaged and biased along the track portion. A pin of a follower pivotally attached to the inner slide engages the guide block to releasably maintain the drawer slide assembly in a closed position and releases upon an inward force applied to the drawer slide assembly. | 04-02-2015 |