Abstract: The present disclosure provides biological fuel cells comprising a paper-based fuel delivery layer which delivery fuel to the biological anode and cathode via capillary action and/or evaporation. In some embodiments the paper-based fuel delivery layer incorporates an outwardly extending fan-shaped region which enables a constant volumetric flow rate through the cell.

Abstract: A method and structure for a semiconductor transistor, including various embodiments. In embodiments, a transistor channel can be formed between a semiconductor source and a semiconductor drain, wherein a transistor gate oxide completely surrounds the transistor channel and a transistor gate metal that completely surrounds the transistor gate oxide. Related fabrication processes are presented for similar device embodiments based on a Group III-V semiconductor material and silicon-on-insulator materials.

Abstract: A family of customizable tethering molecules for tethering cofactors such as, but not necessarily limited to, nicotinamine adenine dinucleotide (NAD+/NADH, NAD(P)+/NAD(P)H) to substrates or structures formed from or including graphene-like materials is described. The tethered cofactor can then be used, for example, as biosensors employed for clinical diagnostic, food industry, medical drug development and environmental and military applications, as well as in reagentless biofuel cells for power generation.

Abstract: Provided are polymer-aerogel composite coatings, devices and articles including polymer-aerogel composite coatings, and methods for preparing the polymer-aerogel composite. The exemplary article can include a surface, wherein the surface includes at least one region and a polymer-aerogel composite coating disposed over the at least one region, wherein the polymer-aerogel composite coating has a water contact angle of at least about 140° and a contact angle hysteresis of less than about 1°. The polymer-aerogel composite coating can include a polymer and an ultra high water content catalyzed polysilicate aerogel, the polysilicate aerogel including a three dimensional network of silica particles having surface functional groups derivatized with a silylating agent and a plurality of pores.

Abstract: We describe ultra-high throughput polony genome sequencing that can permit, for example, generating raw data to re-sequencing the human genome in about one week (including library prep and sequencing) at a reasonable cost. The methods described herein include one or more of the following: (1) increasing polony sequencing read length, (2) improving library construction and emulsions protocols, (3) increasing bead density and/or moving to alternative clonal amplication strategies (other than emulsion PCR or ePCR), (4) extending software capabilities to allow SNP calls from our new sequencing raw data, (5) Dual Primer Emulsion PCR, and (6) diagnostic method exploiting one or more of the foregoing.

Abstract: An optoelectronic device configured to operate at an electromagnetic radiation frequency having metal wire electrodes that are optically transparent as a result of the wires having an effective plasma frequency that is equal to or lower than the electromagnetic frequency at which the device operates. The effective plasma frequency of the wire is lowered by configuring the path of the wire between the terminal ends to be meandering, serpentine, U-shaped and in other non-linear configurations.

Abstract: An ultra-thin, catalyzed liquid transport medium-based membrane structure fabricated with a porous supporting substrate may be used for separating an object species such as a carbon dioxide object species. Carbon dioxide flux through this membrane structures may be several orders of magnitude higher than traditional polymer membranes with a high selectivity to carbon dioxide. Other gases such as molecular oxygen, molecular hydrogen, and other species including non-gaseous species, for example ionic materials, may be separated using variations to the membrane discussed.

Abstract: In accordance with the aspects of the present disclosure, a method and apparatus is disclosed for imaging interferometric microscopy (IIM), which can use an immersion medium to enhance resolution up to a resolution of linear systems resolution limit of ?/4n, where ? is the wavelength in free space and n is the index of refraction of a transmission medium.

Abstract: Composite orthopedic devices that facilitate spine stabilization, such as: bone screws, rods, plates, interbodies, and corpectomy cages are disclosed. They are designed to provide both strength and load carrying capabilities, while increasing bio-integration of the devices with the surrounding bone tissue. They are constructed of composite layers of allograft and/or autograft bone and a structural material, such as titanium alloy or carbon/graphite fiber composite. Cannulations within the device are loaded with a mixture of stem cells, particles of allograft and/or autograft bone, and bone growth factors, such as BMP-2. The cannulations are connected to the surface of the device via multiple fenestrations that provide pathways to supply the bone/stem cell mixture to the surface, allowing living bone tissue to grow and insure bio-integration.

Abstract: A variety of polymers and copolymers suitable for use as biologically compatible constructs and, as a non-limiting specific example, in the formation of degradable tissue scaffolds as well methods for synthesizing these polymers and copolymers are described. The polymers and copolymers have degradation rates that are substantially faster than those of previously described polymers suitable for the same uses. Copolymers having a synthesis route which enables one to fine tune the degradation rate by selecting the specific stoichiometry of the monomers in the resulting copolymer are also described. The disclosure also provides a novel synthesis route for maleoyl chloride which yields monomers suitable for use in the copolymer synthesis methods described herein.

Abstract: Novel active supports, novel catalysts, and methods of preparing active supports using a sacrificial template particles and methods of preparing the same are all described.

Abstract: A biofuel cell comprising an anode and cathode wherein biocatalytic enzymes are purposefully oriented at each side of the fuel cell so as to increase and/or optimize the enzymes' performance in catalysis and/or electron transfer.

Abstract: A sacrificial support-based method, a mechanosynthesis-based method, and a combined sacrificial support/mechanosynthesis support based method that enables the production of supported or unsupported catalytic materials and/or the synthesis of catalytic materials from both soluble and insoluble transition metal and charge transfer salt materials.

Abstract: A biological detector includes a conduit for receiving a fluid containing one or more magnetic nanoparticle-labeled, biological objects to be detected and one or more permanent magnets or electromagnet for establishing a low magnetic field in which the conduit is disposed. A microcoil is disposed proximate the conduit for energization at a frequency that permits detection by NMR spectroscopy of whether the one or more magnetically-labeled biological objects is/are present in the fluid.

Abstract: A photoacoustic medical imaging device may include a substrate, an array of ultrasonic transducers on the substrate, at least one groove etched on the substrate, at least one optical fiber, and at least one facet. Each optical fiber is disposed in one of the grooves. Each facet is etched in one of the grooves and coated with a layer of metal having high infrared reflectivity. Each optical fiber is configured to guide infrared light from a light source through the fiber and toward the respective facet. The facet is configured to reflect the infrared light toward a target.

Abstract: Curcumin analogues and methods are provided for treatment of disease.

Abstract: Active multifunctional nanoparticles provide significant enhancement of the efficacy of model therapeutic and gene agents due to increased diffusion and penetration through mucus and biological barriers under the influence of a magnetic field.

Abstract: The present invention is directed to novel non-invasive diagnostic tools/compounds to image and treat cancers, especially cancers which overexpress GnRH such as breast cancer, prostate cancer and melanoma, among others, including metastatic breast cancer, prostate cancer and/or melanoma among numerous others in vivo. The novel imaging probes are capable of detecting cancerous cells, as well as their metastatic spread in tissues. The novel probes of the present invention will also be useful to initiate therapy for breast and/or prostate cancer, among other cancers, as well as monitor patients' response to chemotherapy treatments and other interventions or therapies used in the treatment of cancer, including metastatic cancer as otherwise described herein. Compounds according to the present invention may be used as diagnostic tools for diagnosing cancer as well as therapeutic agents for treating cancer and related secondary disease states and conditions.

Abstract: In the present disclosure, imidazole-derived materials including M-N-C catalysts, imidazole-derived MOFs and MOF-based M-N-C catalysts as well as methods for preparing the same utilizing mechanosynthesis and/or a sacrificial support-based methods are described.

Abstract: A method for preparing M—N—C catalytic material utilizing ball-milling with or without the addition of a sacrificial support.