Abstract: Disclosed herein are compound embodiments that are useful for treating a variety of diseases, particularly neurological diseases, motor neuron diseases, copper deficiency-related diseases, and/or mitochondrial deficiencies. The compound embodiments described herein also can be used in PET methods. Also disclosed herein are embodiments of methods of making and using the compound embodiments, as well as pharmaceutical formulations comprising the disclosed compound embodiments.

Abstract: Methods for inducing growth inhibition or apoptosis of Bcl-2-expressing cells and treatments of Bcl-2 expressing cancers are provided. Additionally, assays for agents that can induce apoptosis of Bcl-2 expressing cells are disclosed.

Abstract: Disclosed herein are embodiments of a method for making substituted compounds with specific and selectable regiochemistry. Also disclosed are compounds made by the method.

Abstract: Disclosed are isolated single heavy chain variable (VHH) monoclonal antibodies, antigen binding fragments thereof, and bispecific antibodies include these VHH monoclonal antibodies, wherein the VHH monoclonal antibody or antigen binding fragment specifically binds a canine programmed death (PD)-1. Nucleic acid molecules encoding these VHH monoclonal antibodies and antigen binding fragments are also disclosed, as are expression vectors including these nucleic acid molecules and host cells including these expression vectors. Methods of detecting canine PD-1, and methods of increasing cytotoxic T cell activity and treating tumors are also disclosed.

Abstract: Compositions comprising RqSnOm(OH)x(HCO3)y(CO3)z are disclosed, where R is (i) C1—C10 hydrocarbyl or (ii) heteroaliphatic, heteroaryl, or heteroaryl-aliphatic including 1-10 carbon atoms and one or more heteroatoms; q = 0.1-1; x ? 4; y ? 4; z ? 2; m = 2 - q/2 - x/2 - y/2 - z; and (q/2 + x/2 + y/2 + z) ? 2 Methods of making a photoresist film comprising [(RSn)12O14(OH)6](OH)2 on a substrate also are disclosed. The photoresist film may be irradiated to form RqSnOm(OH)x(HCO3)y(CO3)z.

Abstract: A computer implemented scheme for a light detection and ranging (LIDAR) system where point cloud feature extraction and segmentation by efficiently is achieved by: (1) data structuring; (2) edge detection; and (3) region growing.

Abstract: Disclosed herein are compound embodiments that are useful for treating a variety of diseases, particularly neurological diseases, motor neuron diseases, copper deficiency-related diseases, and/or mitochondrial deficiencies. The compound embodiments described herein also can be used in PET methods. Also disclosed herein are embodiments of methods of making and using the compound embodiments, as well as pharmaceutical formulations comprising the disclosed compound embodiments.

Abstract: A slewing mitigation technique is presented where just the right amount of charge is provided at the switching instant to a switch capacitor circuit so that operational transconductance amplifier (OTA) does not need to provide high peak current. This eliminates slewing altogether and allows using OTAs with less static current for the same settling accuracy.

Abstract: Antigenic surface proteins expressed by Mycobacterium bovis under conditions that mimic the natural environment in a host are described. Use of the identified surface proteins in immunogenic compositions for immunization against M. bovis are also described. Nucleic acid molecules and plasmids encoding the M. bovis surface proteins are further described.

Abstract: Disclosed herein are embodiments of a nanoparticle composition suitable for delivering a therapeutic agent to a subject by nebulization. The nanoparticle comprises an ionizable lipid, cholesterol or a derivative thereof, a structural lipid, and a PEG lipid. The nanoparticle may partially or completely encapsulate a therapeutic agent, and may be nebulized for administration, such as by inhalation. In some embodiments, the therapeutic agent is mRNA.

Abstract: A print head comprising nested chambers for in-situ reactant formation is disclosed. The print head comprises a first chamber nested within a second chamber. The first chamber comprises a first nozzle, the second chamber comprises a second nozzle. The first nozzle is substantially coaxial with the second nozzle. A susceptor to convert electromagnetic energy to heat is within the first chamber. The susceptor comprises one or more openings extending between the upper portion and the lower portion. The susceptor may be heated by induction heating or by optical heating to vaporize a precursor substance within the first chamber. The vapor may react with a reactive gas flowing through the first chamber or expand through a nozzle into a second chamber where the vapor may react with the reactive gas, forming nanoparticles. Patterned films may be written onto a two-dimensional or three-dimensional surfaces.

Abstract: A computer implemented scheme for a light detection and ranging (LIDAR) system where point cloud feature extraction and segmentation by efficiently is achieved by: (1) data structuring; (2) edge detection; and (3) region growing.

Abstract: Aqueous solutions of halogenides (oxyhalides) of zirconium and hafnium (M) with values of ?=X/M near one, for X=Cl, Br and I form amorphous solids or glasses, designated as M,X, in contrast to important crystalline oxyhalide end members with ?=2 (designated as MOX). The present disclosure describes methods for producing amorphous thin films comprising halogenides upon evaporation, and provides some measured physical properties, with attention to compositions for ?<2. The value of a below which only glasses are formed is about one for oxychlorides and oxybromides of both Zr and Hf. The chemical formulas for all the halogenide thin films prepared as noted above can be written as a function of the single parameter ?, according to M(OH)4-?X?.(4?-1)H2O. This is valid for e.g., crystalline zirconium oxychloride octahydrate, and for the glassy solids found for ?<2 and down to the onset of hydrolysis, ??0.5.

Abstract: A method is provided to reduce the counting times in radiation detection systems using machine learning, wherein the method comprises: receiving output data from a detector which is to detect a target material from a target body; analyzing the output data; identifying a material of interest from the analyzed output data; and controlling a source of the target material to prevent the source from harming the target body. An apparatus is also provided which comprises: a detector to detect radiation and to provide an output data in real-time; and a processor coupled to the detector, wherein the processor is to: receive the output data; analyze the output data; identify a material of interest from the analyzed output data; and control a source of the target material.

Abstract: A multisensory system provides both temporal and spatial coverage capacities for auto-detection of bird collision events. The system includes an apparatus having a first circuitry to capture and store a series of images or video of a blade of a wind turbine; and a memory to store the images from the first circuitry. The apparatus also has one or more sensors to continuously sense vibration of the blade or for acoustic recordings; and a second circuitry to analyze the sensor data stream and/or the series of images or video to identify a cause of the vibration and to trigger the camera(s). A communication interface transmits data from the second circuitry to another device, wherein the second circuitry applies artificial intelligence or machine learning to control sensitivity of the one or more sensors.

Abstract: This disclosure concerns a system and a method for removing dissolved solids from liquids. Specific implementations concern desalinating water. The system may comprise a blower, such as a thermal fan/compressor, configured to atomize a solid-bearing liquid to produce a hot, humid gas containing dissolved solids; a gas-solid separator configured to receive hot, humid gas containing entrained dissolved solids from the blower to separate the solids from the humid gas and to transmit the humid gas with solids removed through an exit port; a heater configured to heat the hot, humid gas received from the exit port of the gas-solid separator; and a condenser configured to receive heated humid gas from the heater and to condense solids-free liquid therefrom. The thermal fan/compressor may comprise a plurality of nozzles with outlets positioned adjacent atomization apertures across which a solid-bearing liquid flows and through which gas exiting the nozzles passes.

Abstract: Disclosed is direct ink write (DIW) print extrusion head for 3D printing of viscous elastomers. The disclosed print extrusion head comprises a mixer assembly, comprising a fluid distribution cap coupled to a carrier, an in-line mixer coupled to the fluid distribution cap. A cooling jacket surrounds the in-line mixer. A nozzle is coupled to the in-line mixer and protrudes below the cooling jacket over a work surface. The position of the nozzle relative to the work surface is changeable. At least one heat source is on the chassis and disposed adjacent to the fluid distribution cap. The at least one heat source comprises a heat guiding element to direct heat to a region onto the work surface below the nozzle.

Abstract: The method of performing dendrometry and forest mapping utilizes a stereoscopic camera system, coupled with a machine vision system, to determine the diameters at breast height of selected trees in a forest, based solely on calculations performed from recorded digital image data, as well as to generate a map showing the coordinates and calculated diameters of the selected trees in the forest. A ground plane is first determined, and then bounding box coordinates are generated about selected tree stems of the recorded images. The bounding boxes are evolved to determine stem edges of the selected tree stems, and the diameter of each tree at breast height is then determined. Geographic location data is acquired for each tree, allowing a map to be generated which shows the location of each selected tree, along with a tag representative of geolocation data and corresponding diameter data.

Abstract: This disclosure concerns a system for purifying contaminated water and a method for using the system. More specifically, the invention concerns removing contaminants, such as those introduced by fracking, from a contaminated water.

Abstract: Disclosed probes comprise metal nanoparticle cores associated with magnetic particles that allow probes associated with targets to be concentrated by an applied magnetic field to increase detection sensitivity and provide sufficient spacing between concentrated probes to avoid signal quenching. The probe may comprise at least one recognition receptor, and may further comprise at least one reporter molecule, such as a fluorescent tag, a Raman reporter, or combinations thereof. Concentrating probe-target composites substantially enhances a sensing signal, such as from 5 to 10 times, compared to detection without concentrating the probes. The method may be used to detect, for example, interleukins at concentrations at least as low as 25 pg/ml in sputum or blood from a subject for early and precise profiling of viral infections, such as SARS-CoV-2 infections.