Abstract: A catalytic nanoparticle can include a nanodiamond core, a thin-layer polymeric film applied to an outer surface of the nanodiamond core, and a catalyst immobilized at an outer surface of the thin-layer polymeric film. The nanoparticles can also be used in connection with a transducer to form a sensor. A method of catalysis can include contacting the catalytic nanoparticle with a reactant in a reaction area. The reactant can be capable of forming a reaction product via a reaction catalyzed by the catalyst. The method of catalysis can also include facilitating a catalytic interaction between the catalytic nanoparticle and the reactant.

Abstract: Embodiments of the present disclosure relate devices, systems, methods, and for displaying information about the direction and magnitude of position, movement, and/or resistive force experienced for an object. The present disclosure also provides a shear display device that can generate skin shear with one or more tactors. The movement of the tactors can represent to a user various information about an object.

Abstract: Disclosed are D-peptide compositions and methods for inhibiting HIV entry into host cells.

Abstract: A method for analyzing the petroleum content of a rock sample includes at least three repetitions of heating a rock sample to a holding temperature, holding the rock sample at the holding temperature for a holding period, and collecting data about the rock sample during each holding period. The holding temperature for each subsequent holding period may be greater than or equal to a previous holding temperature. The data collected may be analyzed to determine the S1 parameter and calculated to determine the API gravity of the rock sample.

Abstract: Disclosed are inhibitors of human galactokinase of formula (I) that are useful in treating or preventing a galactokinase mediated disease or disorder, e.g., galactosemia. Also disclosed are a composition comprising a pharmaceutically acceptable carrier and at least one inhibitor of the invention, and a method of treating or preventing such disease or disorder in a mammal. Formula (I).

Abstract: Systems, devices, and methods for capturing single source-specific biological material from a multi-source aggregate of biological material are disclosed and discussed. A capture system is generated using reversible chain-blocking to make capture substrates having substrate-linked populations of capture molecules specific for molecules of interest. Incubating such capture substrates in the presence of only a single source of biological material facilitates the association of molecules of interest from the same source. Capture substrate-specific barcode sequences coupled to the capture molecules allow multisource aggregate processing and subsequent grouping to retain the source-specific information following downstream processing.

Abstract: A structural device includes a first deformable member configured to absorb at least a portion of a load resulting from relative displacement between structural members of a building. The first deformable member exhibits elastic deformation when subjected to tensile and/or compressive forces within a first range of forces, and exhibits plastic deformation when subjected to tensile and/or compressive forces within a second range of forces. A second deformable member is affixed to a portion of the first deformable member, and is configured to absorb at least another portion of the load resulting from the relative displacement between the structural members of the building. The second deformable member exhibits elastic deformation when subjected to tensile and/or compressive forces within a third range of forces, and exhibits plastic deformation when subjected to tensile and/or compressive forces within a fourth range of forces. Methods relate to forming structural devices.

Abstract: A substance measurement device includes: a container portion configured to receive a substance; a sensing device configured to measure a property of the substance related to at least one of a flow rate of the substance into the container portion, a level of the substance within the container portion, and a volume of the substance within the container portion; and at least one shield positioned within the container portion and configured to provide at least one of: a mechanical buffer between the substance entering the container portion and the sensing device; and an electrical shield between the substance entering the container portion and the sensing device.

Abstract: A method of creating cadmium telluride films is presented. The method demonstrates heterogeneous nucleation of CdTe directly on a substrate through sequential deposition of aqueous precursor solutions containing cadmium and telluride ions, respectively. The method can include (i) applying a cadmium precursor solution to the substrate to form a cadmium precursor film on the substrate, (ii) applying a telluride precursor solution to the cadmium precursor film. The telluride precursor solution includes Te2? in solution such that a CdTe film is adherently formed directly on the substrate.

Abstract: A microfluidic device can include a temperature regulator positioned to generate a temperature gradient across a thermally controlled portion of the microfluidic device from a high temperature region to a low temperature region. Additionally, the microfluidic device can include a bi-directional microfluidic serpentine pathway having a first terminus and a second terminus. The bi-directional microfluidic serpentine pathway can be oriented along a longitudinal direction transverse to the temperature gradient. Further, the bi-directional microfluidic serpentine pathway can include a plurality of oscillation segments fluidly coupling the first terminus to the second terminus and forming a flow path adapted to oscillate a fluid between the high temperature region and the low temperature region. The bi-directional microfluidic serpentine pathway can have a uniform cross section to facilitate bi-directional flow.

Abstract: An imaging system can include an optical fiber and a light source for providing optical stimulation to a region of interest along the optical fiber. A camera can capture emission such as fluorescence resulting from the optical stimulation. A cannula configured for implantation into a subject can be configured to direct the emission from the subject. A mating sleeve coupling the cannula to the optical fiber, and configured to support the camera, can include a dichroic mirror to allow the optical stimulation to pass from the optical fiber to the cannula and to redirect the emission from the cannula to the camera.

Abstract: Methods for typing a strain of an organism are provided, the methods comprising the steps of amplifying, in a single reaction mixture containing nucleic acid from the organism, dividing the reaction mixture into a plurality of sets of second-stage reaction wells, each set of second-stage reaction wells containing a different pair of second-stage primers, subjecting each of the second-stage reaction wells to amplification conditions to generate a plurality of second-stage amplicons, melting the second-stage amplicons to generate a melting curve for each second-stage amplicon, and identifying the strain of the organism from the melting curves.

Abstract: Devices, systems, and methods for determining a distance between at least two points are disclosed and described, wherein interferometry technology is utilized to determine such distances.

Abstract: A monolithic reusable microwire assembly can include a substrate and an electrically conductive thin-film wire formed on the substrate. The conductive thin-film wire can include a narrow segment forming an active area. A thermally and electrically insulating barrier can be formed on the electrically conductive thin-film wire. A roughness-reducing layer can be formed on the thermally and electrically insulating barrier and can have minimal surface roughness.

Abstract: A spectral distribution of incident light can be determined to increase collected spectral information. The spectral distribution of the incident light can be represented as a sum of spectral components after the incident light passes through a spectrum selective element. A signal at each color pixel of the spectrum selective element can be determined using, in part, the sum of the spectral components, where the spectral components are represented by a set of preliminary values. An error associated with the signal at each color pixel of the spectrum selective element is calculated. One or more perturbations are performed on each of the preliminary values and the error associated with the signal at each color pixel of the spectrum selective element is recalculated. The perturbations on each of the preliminary values is repeated until the error stabilizes within a predetermined range in order to assign the stabilized preliminary values as the spectral components in the incident light.

Abstract: Methods of treating the side effects of a toxic medical therapy using nitrated lipids are disclosed herein. In particular, the methods comprise the use of nitrated fatty acids or esters thereof to treat side effects, including organ system damage, caused by chemotherapy, radiotherapy, and the administration of other toxic agents.

Abstract: A computing system receives as inputs data records stored in a database. The computing parses the data records into file pairs that each include a keyword file and record ID file and merge file pairs into a keyword file and record ID file, where the keyword file includes keywords in sorted order, and where the record ID file includes a list of record IDs for keywords in the keyword file. The computing system further creates an offset file which stores offset values for starting addresses of record ID lists in the record ID file, and generates an index of keywords by assigning unique identifiers to keywords in the keyword file. The computing system also provides a query interface that allows the database's data records to be searched using the generated index of keywords.

Abstract: Described herein are fluid complex coacervates that produce solid adhesives in situ. Oppositely charged polyelectrolytes were designed to form fluid adhesive complex coacervates at ionic strengths higher than the ionic strength of the application site, but an insoluble adhesive solid or gel at the application site. When the fluid, high ionic strength adhesive complex coacervates are introduced into the lower ionic strength application site, the fluid complex coacervate is converted to a an adhesive solid or gel as the salt concentration in the complex coacervate equilibrates to the application site salt concentration. In one embodiment, the fluid complex coacervates are designed to solidify in situ at physiological ionic strength and have numerous medical applications. In other aspects, the fluid complex coacervates can be used in aqueous environment for non-medical applications.

Abstract: An optical filter may reduce the frequency and/or severity of photophobic responses or for modulating circadian cycles by controlling light exposure to cells in the human eye in certain wavelengths, such as 480 nm and 590 nm, and a visual spectral response of the human eye. The optical filter may disrupt the isomerization of melanopsin in the human eye reducing the availability of the active isoform, whereas the attenuation of light weighted across the action potential spectrum of the active isoform attenuates the phototransduction cascade leading to photophobic responses. Embodiments of an optical filter are described. In one embodiment an optical filter may be configured to transmit less than a first amount of light in certain wavelengths, and to transmit more than a second amount of light weighted across the visual spectral response. Methods of use and methods of manufacturing optical filters are also described.

Abstract: A non-natural modified CMV promoter is provided. Such a promoter can include a promoter nucleotide sequence that is at least 80% homologous to a sequence selected from the group consisting of SEQ ID 01, SEQ ID 02, SEQ ID 03, SEQ ID 04, SEQ ID 05, SEQ ID 06, SEQ ID 07, and compliments thereof.