Abstract: The present subject matter relates to a steam activated biochar, a method of preparing the steam activated biochar, and a method of removing hexachlorocyclohexane (HCH) from soil using the steam activated biochar.

Abstract: The present invention discloses a GaN HEMT device for irradiation damage detection which comprises a substrate layer, a gallium nitride layer, a barrier layer and a dielectric layer. A p-type gallium nitride layer is provided on the barrier layer. A drain and a source are respectively located at an inner side and an outer side of the p-type gallium nitride layer and provided on the gallium nitride layer. A Schottky metal layer is provided on the p-type gallium nitride layer. A first ohmic metal layer and a second ohmic metal layer are respectively located at an inner side and an outer side of the p-type gallium nitride layer and provided on the barrier layer. The second ohmic metal layer includes inner gear electrodes and outer gear electrodes, which are interdigital with each other.

Abstract: A method for synthesizing a MoO3@Al2O3—MgO nanocomposite material incudes adding distilled water and ammonium molybdate to a powder mixture of Al(NO3)3·9H2O, Mg(Ac)2·4H2O, and sucrose to form a reaction mixture and heating the reaction mixture to a reaction temperature in a range of 150° C. to 220° C. to form a carbonized product. The method further includes grinding the carbonized product to form a ground carbonized product and calcining the ground carbonized product at a temperature of about 700° C. to 800° C. for a period of 2 to 4 hours to form the MoO3@Al2O3—MgO nanocomposite material. The MoO3 content of the MoO3@Al2O3—MgO nanocomposite material ranges from 1 wt. % to 20 wt. % and the MoO3@Al2O3—MgO nanocomposite material has a hydrogen generation rate of greater than or equal to 400 mL·min?1·g?1, when used to generate hydrogen from NaBH4.

Abstract: Compounds and methods of treating HIV-1 in a human infected with HIV-1 or preventing HIV-1 infection in a human susceptible to infection with HIV-1 are provided. The compounds are of formula (I), (II), and (IA), wherein R1-R7, X, X?, Y, Y?, Z, and n are defined herein, and the methods comprises administering therapeutically effective amounts of these compounds to the human.

Abstract: A metamaterial electromagnetic absorber includes a substrate having a first surface on which electromagnetic waves are incident and a second surface opposite the first surface. The substrate is made of a metamaterial. The metamaterial electromagnetic absorber also includes a first inductive conduction pattern and a second inductive conduction pattern formed on the first surface and the second surface, respectively.

Abstract: A method and a device for joint suppression of narrowband and multiple access interference are provided. The method includes: performing time domain windowing processing on a received signal, and performing frequency domain interference processing on a signal after windowing processing to obtain a matched filter and a time domain signal; obtaining reconstructed baseband received data for a signal of each channel; obtaining reconstructed signals after matched filtering; accumulating the reconstructed signals of multiple channels to obtain a reconstructed accumulated value, obtaining a compensation value according to a difference between the time domain signal and the reconstructed accumulated value, and compensating the reconstructed signals with the compensation value to obtain an actual received signal of the each channel; and outputting a joint suppression result.

Abstract: A novel treatment method is disclosed, wherein a patch configured to be placed on a patient's skin is activated, before placement, to deliver localized radiotherapy to a diseased area of the skin. The disclosed devices and methods minimize or prevent collateral damage to the neighboring tissues. In most cases, the disclosed devices and methods include coating a contoured, solid, flexible or conformal substrate with one or more lanthanide elements and then activating (e.g. neutron irradiation) the elements such that its resulting radioisotope emits beta-particles into the diseased skin surface when applied to the patient's skin. Novel processes are described for fabricating and irradiating the lanthanide-based skin patch, for example a holmium-based skin patch.

Abstract: The wave number and phase velocity (shear wave speed) of ultrasound energy within an organ of interest are calculated using a herein-disclosed phase gradient calculation method. This calculation method is less sensitive to imperfections in the reverberant field distribution and requires a smaller support window, relative to earlier calculation methods based on autocorrelation. Applications are shown in simulations, phantoms, and in vivo liver.

Abstract: A method of designing an internal structure of a foamed resin sound absorbing material includes: setting a microscopic structure model with a structure equivalent to the internal structure of the foamed resin sound absorbing material; calculating an acoustic characteristic by homogenization for each of a plurality of microscopic structure models, each being the microscopic structure model; identifying a relational expression between a Biot's parameter of the foamed resin sound absorbing material and the microscopic structure model; setting a target acoustic characteristic; identifying a Biot's parameter for achieving the target acoustic characteristic set, by Biot's modeling; and identifying a microscopic structure model corresponding to the Biot's parameter identified.

Abstract: Disclosed are cathodes comprising a conductive support substrate having an electrocatalyst coating containing nickel phosphide nanoparticles. The conductive support substrate is capable of incorporating a material to be reduced, such as CO2 or CO. A co-catalyst, either incorporated into the electrolyte solution, or adsorbed to, deposited on, or incorporated into the bulk cathode material, provides increased selectivity and activity of the nickel phosphide electrocatalyst. Also disclosed are electrochemical methods for selectively generating hydrocarbon and/or carbohydrate products from CO2 or CO using water as a source of hydrogen.

Abstract: A data processing system and method for accessing a heterogeneous memory system including a processing unit are provided. The heterogeneous memory system includes a memory module and high bandwidth memory (HBM) including a processing-in-memory (PIM) circuit combined with a memory controller. The memory controller is configured to detect a data array required for an arithmetic operation from a memory module or the HBM by using a border index value when the arithmetic operation is performed by the PIM circuit of the HBM and generate a memory module command set and an HBM command set using physical address spaces respectively designated in the memory module and the HBM.

Abstract: Disclosed herein is a Dynamic Random Access Memory-Based Content-Addressable Memory (DRAM-CAM) architecture and methods relating thereto. The DRAM-CAM architecture can include a memory array, with the data organized into blocks including rows and columns. Input data can be converted into a format with first and second groups of columns. Each first group can correspond to one or more rows of the input data, and each second group can include one or more null columns. A query can be received and loaded into an available column of the second group, and pattern matching can be performed on the data to identify occurrences of elements defined by the query. The pattern matching can be performed concurrently on the first groups of columns and the available columns bit by bit. Results can include a count or location of each identified element.

Abstract: Systems and methods for assessing glaucoma loss using optical coherence topography. One method according to an aspect comprises receiving optical coherence image data and assessing functional glaucoma damage from retinal optical coherence image data. In an aspect, the systems and methods can map regions and layers of the eye to determine structural characteristics to compare to functional characteristics.

Abstract: A method for learning-based point cloud geometry compression includes: given a source point cloud, regressing an aligned mesh that is driven by a set of parameters from a deformable template mesh, quantizing the set of parameters into a parameter bitstream, generating an aligned point cloud from the quantized parameters by mesh manipulation and mesh-to-point-cloud conversion, extracting features from both the source point cloud and the aligned point cloud based on sparse tensors including coordinates and features, the coordinates being encoded into a coordinate bitstream, warping the features of the aligned point cloud onto the coordinates of the source point cloud, obtaining residual features through feature subtraction, processing the residual features using an entropy model into a residual feature bitstream, and obtaining a reconstructed point cloud by processing the parameter bitstream, the coordinate bitstream and the residual feature bitstream.

Abstract: The invention relates to a microfluidic poration device having narrow channels slightly smaller than the width of a target cell, wherein the channels are lined with a plurality of nanospikes in a row extending down the middle of the channel, i.e. in a row parallel to the sides of the channel. In one embodiment, one channel may have 2 nanospikes (or 2 nanolancets). Thus, in particular embodiments, the invention provides microfluidic poration devices capable of simultaneously squeezing cells while piercing holes in their membranes for allowing foreign molecules into cells. The holes in porated cells spontaneously close after exiting the channels, thus entrapping the foreign molecules inside of the target cells. This porated cell population has approximately a 95% viability with greater than 50% containing at least one foreign molecule.

Abstract: A resistance device (100) includes a field-effect transistor (TN) and a voltage applying circuit (1). The voltage applying circuit (1) applies a control voltage (Vgs) between the gate and source of the field-effect transistor (TN) according to a temperature (T) to control a resistance value (R) between the drain and source of the field-effect transistor (TN). The control voltage (Vgs) is a voltage obtained by adding a correction voltage (Vc) to a reference voltage (Vgs0). The correction voltage (Vc) depends on the temperature (T) and is set to be zero at a first temperature (T1).

Abstract: The invention provides a method of promoting reprogramming of a cardiac fibroblast into a cardiomyocyte by contacting the cardiac fibroblast with an isolated polynucleotide molecule comprising at least two functional miRNA sequences using a multicistronic expression system for reprogramming of fibroblasts into functional mature cardiomyocytes.

Abstract: The present invention relates to a prediction method for stall and surge of an axial compressor based on deep learning. The method comprises the following steps: firstly, preprocessing data with stall and surge of an aeroengine, and partitioning a test data set and a training data set from experimental data. Secondly, constructing an LR branch network module, a WaveNet branch network module and a LR-WaveNet prediction model in sequence. Finally, conducting real-time prediction on the test data: preprocessing test set data in the same manner, and adjusting data dimension according to input requirements of the LR-WaveNet prediction model; giving surge prediction probabilities of all samples by means of the LR-WaveNet prediction model according to time sequence; and giving the probability of surge that data with noise points changes over time by means of the LR-WaveNet prediction model, to test the anti-interference performance of the model.

Abstract: The present disclosure relates to the detection of analytes in high volumetric flow applications. Particular embodiments relate to the use of fluorescence polarization/anisotropy based for detection of analytes in a flow cell. In one testing format, an analyte of interest is probed with reagents containing fluorescent labeled recognition elements. When present in a sample or portion of a sample, thee labeled analyte produces a shift in fluorescence polarization/anisotropy/intensity/lifetime as the output signal following the binding of the recognition elements to the analytes.

Abstract: Stable nanoemulsions of a terpene-rich cannabidiol by-product (TP) and/or its distillate (DTP) can be used to effectively make pesticides, herbicides, and other bioactive products. A terpene-rich by-product (TP) can be provided, suitably by isolation from a commercial cannabidiol production process. The enriched terpene distillate (DTP) can be obtained from steam distillation of some or all of the TP. The TP and/or DTP can be combined with a surfactant to form an emulsion, which can then be sonicated to form the stable nanoemulsion. It has been discovered that the formulation of stable nanoemulsions using the terpene by-products as the lipophilic phase can effectively deliver desired levels of bioactivity while overcoming or mitigating the known drawbacks of high lipophilicity, high volatility, and propensity to thermal and oxidative degradation, all of which can lead to reduced efficacy.