Abstract: Provided herein are compositions and methods for determining the structure of individual targets using nucleic acid caliper by determining long-range distances within such targets.

Abstract: The present invention relates to a method for forming a tissue construct having a composite structure. The method includes providing a biodegradable substrate, wherein the substrate is adapted to allow deposition or growth of a plurality of cells; providing a vascularized layer comprising a plurality of blood vessels therein; and adhering the vascularized layer to the substrate.

Abstract: The invention provides compositions comprising nucleic acid complexes for use in monitoring binding interactions and in measuring association and/or dissociation kinetics, detecting analytes including low concentration analytes, and screening library members. In some instances, the nucleic acid complexes are double-stranded nicked nucleic acids comprising a scaffold nucleic acid hybridized to one or more oligonucleotides. In some instances, a first, a second, a third, and optionally a fourth oligonucleotide are linked to moieties that are known to interact with each other or which are suspected of interacting with each other or of interacting with a common moiety such as an analyte. Changes in topology of the complex are used to determine the binding interactions of the various binding partners.

Abstract: Aspects of the present disclosure are directed to pressure sensing. As may be implemented in accordance with one or more embodiments, an external energy field is applied to a resonant circuit having inductive conductors separated by a compressible dielectric, for wirelessly detecting pressure. Specifically, the resonant circuit is responsive to the energy field and applied pressures by operating in respective states exhibiting different resonant frequencies that are based upon pressure-related compression of the compressible dielectric. These resonant frequencies, or a change in the resonant frequencies, can be used as an indication of the pressure.

Abstract: A wafer-scale multiple carbon nanotube transfer process is provided. According to one embodiment of the invention, plasma exposure processes are performed at various stages of the fabrication process of a carbon nanotube device or article to improve feasibility and yield for successive transfers of nanotubes. In one such carbon nanotube transfer process, a carrier material is partially etched by a plasma process before removing the carrier material through, for example, a wet etch. By applying the subject plasma exposure processes, fabrication of ultra-high-density nanotubes and ultra-high-density nanotube grids or fabrics is facilitated. The ultra-high-density nanotubes and ultra-high-density nanotube grids or fabrics fabricated utilizing embodiments of the invention can be used, for example, to make high-performance carbon nanotube field effect transistors (CNFETs) and low cost, highly-transparent, and low-resistivity electrodes for solar cell and flat panel display applications.

Abstract: A method of conductively coupling a carbon nanostructure and a metal electrode is provided that includes disposing a carbon nanostructure on a substrate, depositing a carbon-containing layer on the carbon nanostructure, according to one embodiment, and depositing a metal electrode on the carbon-containing layer. Further provided is a conductively coupled carbon nanostructure device that includes a carbon nanostructure disposed on a substrate, a carbon-containing layer disposed on the carbon nanostructure and a metal electrode disposed on the carbon-containing layer, where a low resistance coupling between the carbon nanostructure and metal elements is provided.

Abstract: Provided is a phase change memory device including a graphene layer inserted between a lower electrode into which heat flows and a phase change material layer, to prevent the heat from being diffused to an outside so as to efficiently transfer the heat to the phase change material layer, and a method of fabricating the phase change memory device. The phase change memory device includes a lower electrode; an insulating layer formed to enclose the lower electrode; a graphene layer formed on the lower electrode; a phase change material layer formed on the graphene layer and the insulating layer; and an upper electrode formed on the phase change material layer. Since a phase of the phase change material layer is changed at a small amount of driving current, the phase change memory device is fabricated to have a high driving speed and a high integration.

Abstract: Provided herein are compositions and methods for determining the structure of individual targets using nucleic acid caliper by determining long-range distances within such targets.

Abstract: Methods (300), devices, and systems of processing blood are described. The method (300) comprises the steps of: obtaining (312) blood from a patient coupled to a single blood processing device to form a closed loop between the patient and the blood processing device; collecting (314) bulk mononuclear blood cells from the blood by leukapheresis implemented using the blood processing device in the closed loop; and enriching (316) concurrently target cells separated from non-target cells in the bulk mononuclear blood cells using the blood processing device in the closed loop.

Abstract: Provided are methods and compositions relating to conjugation of nucleic acids and proteins of interest under conditions that maintain protein activity. The nucleic acid-protein conjugates may be used in nucleic acid nanostructures such as those generated using DNA origami methods.

Abstract: Provided is a phase change memory device including a graphene layer inserted between a lower electrode into which heat flows and a phase change material layer, to prevent the heat from being diffused to an outside so as to efficiently transfer the heat to the phase change material layer, and a method of fabricating the phase change memory device. The phase change memory device includes a lower electrode; an insulating layer formed to enclose the lower electrode; a graphene layer formed on the lower electrode; a phase change material layer formed on the graphene layer and the insulating layer; and an upper electrode formed on the phase change material layer. Since a phase of the phase change material layer is changed at a small amount of driving current, the phase change memory device is fabricated to have a high driving speed and a high integration.

Abstract: An apparatus for measuring a characteristic of a sample includes a sample measurement apparatus (1404), which includes a light source (1406) configured to illuminate the sample; and a detector (1412) configured to receive light from the sample. The sample measurement apparatus is sized and dimensioned to fit within a centrifuge receptacle, the centrifuge receptacle (1416) coupled to a spindle configured to rotate the centrifuge receptacle to apply a force to the sample.

Abstract: Systems and methods maintain cache coherency between storage controllers using input/output virtualization. In one embodiment, a primary storage controller receives write commands over a virtualized interface, stores the write commands in cache memory, tracks a status of the write commands processed from the cache memory, and stores the status in a portion of the cache memory. A backup storage controller includes a backup cache that receives replications of the write commands via direct memory access operations, and stores the replications of the write commands. The primary storage controller makes the status available to a host system. In response to a failure of the primary storage controller, the backup storage synchronizes with the status from the host system, and resumes I/O operations for the logical volume.

Abstract: An apparatus for measuring a characteristic of a sample includes a sample measurement apparatus (1404), which includes a light source (1406) configured to illuminate the sample; and a detector (1412) configured to receive light from the sample. The sample measurement apparatus is sized and dimensioned to fit within a centrifuge receptacle, the centrifuge receptacle (1416) coupled to a spindle configured to rotate the centrifuge receptacle to apply a force to the sample.

Abstract: Disclosed is a web browser based content management application with an integrated user configurable content interface whereby a user can manage a wide variety of content using a single window. The user interface includes a “browser window in a browser window” that provides transparent access to a host of underlying applications that are configured to manage the user's interaction with a wide variety of content, including multimedia content delivered via the Internet. The windowing functionality of the content management application can be set to automatically reconfigure based on the number and type of content accessed. A continuously playing video player is configured to appear within a web page when a user browses to the first web page and to render video overlayed on the web page. The player is configured to play the same video stream continuously while a user browses from the web page to a second web page.

Abstract: A user interface that has a canvas that is extendable in an extendable dimension and on which multiple selectable elements may be placed. In this context, when a selecting control is associated with a particular selectable element, and further user gestures are provided, a pan detection mechanism is configured to distinguish between an intent to pan the canvas and an intent to select the particular selectable element. When a selecting control is associated with a particular orthogonally scrollable element, the pan detection mechanism may be distinguish between an intent to pan the canvas and an intent to scroll the orthogonally scrollable element in a direction perpendicular to the extendible dimension of the canvas.

Abstract: Aspects of the present disclosure are directed to pressure sensing. As may be implemented in accordance with one or more embodiments, an external energy field is applied to a resonant circuit having inductive conductors separated by a compressible dielectric, for wirelessly detecting pressure. Specifically, the resonant circuit is responsive to the energy field and applied pressures by operating in respective states exhibiting different resonant frequencies that are based upon pressure-related compression of the compressible dielectric. These resonant frequencies, or a change in the resonant frequencies, can be used as an indication of the pressure.

Abstract: The present invention relates to the field of cell differentiation. In particular, the present invention relates to a method for preparing improved cardiomyocyte-like cells differentiated from at least one multipotent or pluripotent cell, comprising a step of contacting the cardiomyocyte-like cell(s) with at least one agent to promote and/or induce integrin subunit alpha-V (integrin ?v) activity, thereby modulating expression of at least one cardiac gene of said cardiomyocyte-like cells. It also relates to a method for screening for an agent capable of improving cardiomyocytes differentiated from at least one multipotent or pluripotent cell.

Abstract: The invention provides compositions comprising nucleic acid complexes for use in monitoring binding interactions and in measuring association and/or dissociation kinetics with or without force, detecting analytes, screening aptamers, and encoding/encrypting information. In some instances, the nucleic acid complexes are double-stranded nicked nucleic acids comprising a scaffold nucleic acid hybridized to one or more oligonucleotides. In some instances, a first and/or a second oligonucleotide are linked to moieties that are known to interact with each other or which are suspected of interacting with each other.

Abstract: A spinning force system and methods of operation are provided for measuring a characteristic of a sample. The system includes a detection module having a light source for illuminating the sample and an objective being aligned to the light source to define a light path for producing an image of the sample. A rotor is mechanically coupled to the detection module and configured to rotate the light path for applying a force to the sample. The force may include a centrifugal force and other forms of force (such as a viscous drag force) resulted from the rotation. In some examples, the force is applied in a direction that is not parallel to a surface of the sample.