Abstract: A thiazole derivative compound includes a compound having the following structural formula: or a pharmaceutically acceptable salt thereof.

Abstract: A method for forming an antifuse on a substrate is provided, which comprises: forming a first conductive material on the substrate; placing the first conductive material in an electrolytic solution; performing anodic oxidation on the first conductive material to form a nanowire made of the first conductive material and surrounded by a first dielectric material formed during the anodic oxidation and to form the antifuse on the nanowire; and forming a second conductive material on the antifuse to sandwich the antifuse between the first conductive material and the second conductive material.

Abstract: Exemplary systems, methods, and computer-accessible mediums can be provided that can generate resultant data regarding fiber tract(s) and anatomical structure(s). For example, first information related to imaging data of the anatomical structure(s) can be received. Second information related to a predictive model of further fiber tract(s) can be received. The resultant data can be generated based on the first information, the second information and a fiber cost procedure.

Abstract: Cross-linked polymeric resins from anilines linked together with polyamine alkyl chains. A process for producing the cross-linked polymeric resins by Mannich-type polycondensation of anilines and diaminoalkanes linked together by an aldehyde and subsequent basification. In addition, a method for removing heavy metals, such as Pb (II) and As (V) from aqueous solution via contacting and treatment with the cross-linked polymeric resins.

Abstract: This invention provides a method for decellularizing adipose tissue, comprising subjecting the adipose tissue to one or more incubations in an enzymatic digestion solution containing one or more enzymes, and one or more solvent extractions, wherein decellularized adipose tissue comprising an extracellular matrix with well-preserved three-dimensional structure is obtained. The invention also provides a decellularized adipose tissue comprising an extracellular matrix with well-preserved three-dimensional architecture, and bioscaffolds, microcarrier beads, and coatings comprising the decellularized adipose tissue.

Abstract: The present subject matter relates generally to the derivatization of highly-aligned carbon nanotube sheet substrates with one or more transition metal centers and to uses of the resulting metal-derivatized CNT sheet substrates.

Abstract: Nonlinear control method for the micro-grid inverter with anti-disturbance. By generating reference currents that satisfy specific active and reactive power command under various working conditions, and introducing a nonlinear control method based on Lyapunov function to control the inverter, fast and accurate tracking of the generated reference signals is realized. The method realizes effective decoupling control of active power and reactive power. The system has high dynamic response and good robustness. Besides, the control structure of the method is simple and easy to implement, and the synchronous control link and the additional voltage and current regulator are omitted. The method realizes fast and accurate power exchange and stable power transmission between the inverter and the grid in the micro-grid under various working conditions, and provides a guarantee for improving the energy management efficiency within the micro-grid.

Abstract: Materials and methods for improving the DC and RF performance of off-state step-stressed high electron mobility transistors (HEMTs) and devices are provided. A semiconductor device can include at least one HEMT and an on-chip heating source. A method of recovering the DC and RF performance of a stressed semiconductor device can include annealing the device with a built-in heating source of the device.

Abstract: The present invention generally concerns decomposing a ternary metal hydride to isolate nanoparticles to use in a fuel grain. More specifically, the present invention harnesses increased energy densities from two distinct nanoparticles isolated by a precise decomposition of LiAlH4. The singular material is air stable and is a nanocomposite of Li3AlH6 nanoparticles, elemental Al nanoparticles, an amount of Ti metal, and a nanoscale organic layer. We call this nanocomposite nMx, which protects and preserves the high energy densities of the core metals isolated from the controlled reaction, making the nanoparticles safe to handle in air. The narrow distribution of nanoparticles has no byproducts or phase transitions that decrease energy output. The unique burning characteristics of nMx enhance the combustion of solid propellant formulations compatible with solid or hybrid rocket motors, where fuel grains are cast, pressed, or 3D printed with nMx powder, a polymeric binder, or optional additives.

Abstract: Disclosed herein are atmospheric pressure pin-to-hole pulsed spark discharge devices and methods for creating plasma. The devices include a conduit for fluidically communicating a gas, a plasma, or both, therethrough, portion of the conduit capable of being connected to a gas supply, and a second portion of the conduit capable of emitting a plasma; a positive electrode comprising a sharp tip; and a ground plate electrode. Disclosed are methods for treating a skin ulcer using non-thermal plasma include flowing a gas through a cold spark discharge zone simultaneously with the creation of a pulsed spark discharge to give rise to a non-thermal plasma emitted from a conduit, the non-thermal plasma comprising NO; and contacting a skin ulcer with said non-thermal plasma for sufficient time and intensity to give rise to treatment of the skin ulcer.

Abstract: A single-phase flip-flop comprising: a master latch comprising: a first circuit to generate a master latch signal in response to a first master logic operation on a flip flop input signal and a first clock signal, and a second circuit to generate a master output signal in response to a second master logic operation on the first clock signal and master latch signal; a slave latch comprising: a third circuit to generate a slave output signal in response to a first slave logic operation on the first clock signal and one of the master output signal and an inverted slave output signal; and wherein the master latch is configured to capture the flip-flop input signal during a first portion of the first clock signal and the slave latch is configured to capture the master output signal during a second portion of the first clock signal.

Abstract: The present invention relates to the fields of medicine, cell biology, molecular biology and genetics. In particular, the present invention provides methods to isolate and purify microvesicles from cell culture supernatants and biological fluids. The present invention also provides pharmaceutical compositions of microvesicles to promote or enhance wound healing, stimulate tissue regeneration, remodel scarred tissue, modulate immune reactions, alter neoplastic cell growth and/or mobility, or alter normal cell growth and/or mobility. The present invention also provides compositions of microvesicles to be used as diagnostic reagents, and methods to prepare the compositions of microvesicles.

Abstract: A digital control laser automatic tooth preparation method and device and a tooth positioner are provided. The device includes an intra-oral three-dimensional scanner, a dental laser, an oral working end, an oral and maxillofacial cone beam CT scanner, a computer, a tooth positioner, a negative-pressure suction device and a real-time monitoring device. The computer is connected respectively with the intra-oral three-dimensional scanner, the dental laser, the oral working end, the oral and maxillofacial cone beam CT scanner, the negative-pressure suction device, and the real-time monitoring device. The dental laser is connected with the oral working end of the digital control laser tooth preparation control system through a light guiding arm (1). The oral working end of the digital control laser tooth preparation control system is connected with the tooth positioner and the real-time monitoring device. The negative-pressure suction device is connected with the tooth positioner.

Abstract: Provided is a method for increasing the lifetime of devices of a cluster-tree structured multi-hop wireless communication system which uses a battery as the main power and includes an access point (AP) managing network operation and a plurality of devices connected to the AP, wherein some network devices operates as a router capable of having its child devices, the rest of the network device operate as an end device incapable of having its child devices, and the AP, the routers, and the end devices are connected in a parent-child device relationship. The method includes equalizing the average power consumption of each device by exchanging the roles of the router and the end device requiring different power consumption without interrupting normal network operation.

Abstract: In one embodiment, a method for depositing metal on a polymer surface, the method includes coating the polymer surface with a binding metal to render the polymer surface solvophillic and/or hydrophilic and depositing a further metal on the binding metal-coated polymer surface.

Abstract: An implantable mesh for use in reconstructing tissue includes a mesh body and one or more extensions extending from the mesh body. Each mesh extension has a first end and a second end, wherein the first end of the mesh extension is integrated into or part of the mesh body. Each mesh extension is configured to permit multiple anchor points with surrounding tissue upon implantation. In one embodiment, a fixation device is at the second end of each mesh extension. Methods of using the implantable mesh are also provided.

Abstract: The present invention relates to use an Inertial Measurement Unit (IMU) to record the acceleration trajectory of a person's gait or pen-less handwriting motion or any predesignated gestures, and to convert the data to a unique biometric pattern. The pattern is unique for each case and can be used as biometric security authentication.

Abstract: The image decoding method according to the present invention comprises the steps of: determining the availability of a block adjacent to a current block; configuring a merge candidate list for the current block on the basis of the result of the determined availability; and performing motion compensation for the current block on the basis of the merge candidate list, wherein the step of determining availability comprises the steps of inducing block availability information on the adjacent block and inducing the availability of motion information on the adjacent block, and the step of determining the availability of the adjacent block is such that when there is more than one adjacent block, the availability of adjacent blocks can be determined in accordance with a predetermined order restriction.

Abstract: Compositions of, methods of making, and methods of using hybrid nanoparticles comprise at least one semiconducting polymer and at least one nonsemiconducting polymer. Compositions of, methods of making and methods of using hybrid nanoparticles comprise at least one semiconducting polymer and non-semiconducting polymers wherein the non-semiconducting polymer comprises more than one non-semiconducting polymer such that at least one non-semiconducting polymer is functionalized for bioconjugation. The hybrid nanoparticles are polarization-sensitive and have low mass ratios with large fluorescence.

Abstract: A zero-power digital chemical analyzer can include a chemically-selective percolation switch. The chemically selected percolation switch can include a positive electrode and a negative electrode separated from the positive electrode by a gap. A binding agent can be located at binding sites in the gap. The binding agent can be selective for binding to a target chemical compound. The binding sites can be distributed in the gap so that target chemical molecules binding to the binding sites can form an electrically conductive pathway via a natural percolation phenomenon between the electrodes when the ambient concentration of the target chemical compound reaches a threshold concentration.