Abstract: A bipolar nanocomposite semiconductor (BNS) material in which electrons and holes are separately transported throughout the BNS volume via an interpenetrating plurality of networks, where some of the networks have one conductivity type and others have the opposite conductivity type. The interpenetrating networks can include one or more multiple nanocrystalline structures, metal and dielectric networks and are intimately connected to enable band-like transport of both electrons and holes throughout the material.

Abstract: Deposition of Pt nanoparticles on UiO metal organic frameworks via solvothermal reduction is achieved by reducing Pt acetylacetonate (Pt(acac)2) in a UiO-66 and N,N-dimethylformamide (DMF) mixture at, for example, 130° C. for 18 hrs. Modification of reaction temperature and time can control the size of the Pt nanoparticles.

Abstract: This disclosure concerns a method of making a ligand for Quantum Dot functionalization, a method of making a functionalized Quantum Dot (QD) with a ligand, and a method of making a transparent luminescent quantum dot thiol-yne nanocomposite with tailorable optical, thermal, and mechanical properties. The prepolymer solution and functionalized Quantum Dot can be used in additive manufacturing.

Abstract: An oxide-based aerogel having cerium and nickel may be used as a water-gas shift reaction catalyst without producing methane as a byproduct. It may be made by forming a gel from a cerium salt and a nickel salt solution and converting the gel to an aerogel.

Abstract: Photonic integrated circuit (PIC) devices are disclosed. Such PIC devices include a substrate and a semiconductor waveguide on a surface of the substrate. A p-type semiconductor layer is on the surface of the substrate, with the p-type semiconductor layer being on a first side of the semiconductor waveguide. An n-type semiconductor layer is on the surface of the substrate, with the n-type semiconductor layer being on a second side of the semiconductor waveguide so that a region of the semiconductor waveguide is between the p-type and n-type semiconductor layers. Moreover, the p-type semiconductor layer, the n-type semiconductor layer, and the region of the semiconductor waveguide between the n-type and p-type semiconductor layers define a radiation emitting diode configured to emit radiation through the semiconductor waveguide.

Abstract: Semiconductor heterostructures having an engineered polarization. Semiconductor materials having specified crystallographic directions and specified polarizations are directly bonded to one another by means of atomic layer bonding without the use of any interfacial bonding materials, where spontaneous polarization of the two layers produced by joining the two materials by direct wafer bonding produces a strong 2DEG or 2DHG at the interface. Embodiments include GaN/AlN and AlN/GaN heterostructures having an N- or Ga-polar GaN layer directly bonded to an N- or Al-polar Al layer. Other embodiments can incorporate an InN epitaxial layer or an alloy incorporating an N-polar, Al-polar, or Ga-polar material having In, Al, or Ga in the crystal lattice, e.g., (InxAl1-xN), InxGa1-xN, AlxGa1-xN, InxAlyGa1-x-yN, where (0<x?1, 0<y?1, 0<x+y?1).

Abstract: Disclosed herein is a compound made by copolymerizing a poly(ethylene glycol) acrylate with a first acrylate monomer having a first functional group that interacts with a third functional group having a third functional group type selected from anionic groups, cationic groups, or perfluoroalkyl groups. Optionally, the copolymerization includes a second acrylate monomer having a second functional group that interacts with a fourth functional group having a fourth functional group type selected from anionic groups, cationic groups, and perfluoroalkyl groups. The third functional group type and the fourth functional group type are different. When the compound is porous, as when made by high internal phase emulsion polymerization, it may be used for per- and poly-fluoro alkyl substance decontamination.

Abstract: A non-contact material assessment system and method are provided. In embodiments, a system includes: a radiation source generating a pattern of diffracted elements; a detector configured to: capture a first image of a first diffracted element when a sample is in an initial state, and a second image when the sample is in a second state; and capture a first image of a second diffracted element when the sample is in the initial state, and a second image when the sample is in the second state; and a controller to: determine a displacement of the first diffracted element based on the first and second images of the first diffracted element; determine a displacement of the second diffracted element based on the first and second images of the second diffracted element; and determine a characteristic of the sample over based on the displacement of the first and second diffracted elements.

Abstract: Disclosed herein is a composition having a nylon polymer and tannic acid. The nylon polymer and the tannic acid are homogenously distributed in the composition. The composition may be made by dissolving a nylon polymer and tannic acid in a solvent to form a solution and removing the solvent from the solution to form the composition.

Abstract: The present invention provides a method for preparing catalytic particles and using them for increased sensitivity in lateral flow immunoassays. Palladium salt is reduced in the presence of a protein using sodium borohydride as a reducing agent to form brown or gray particles. These particles catalytically develop a dye to detect the presence of an analyte.

Abstract: Methods for efficient doping of wide-bandgap (WBG) and ultrawide-bandgap (UWBG) semiconductors by implantation, and WBG and UWBG semiconductors made using the disclosed methods. A p-type semiconductor region is formed by implanting specified acceptor and donor co-dopant atoms in a predetermined ratio, e.g., two acceptors to one donor (ADA), into the semiconductor lattice. An n-type type semiconductor region is by implanting specified donor and acceptor co-dopant atoms in a predetermined ratio, e.g., two donors to one acceptor (DAD), into the semiconductor lattice. Compensator atoms are also implanted into the lattice to complete formula units in the crystal lattice structure and preserve the stoichiometry of the semiconductor material. The doped material is then annealed to activate the dopants and repair any damage to the lattice that might have occurred during implantation.

Abstract: Methods and systems providing laser outputs are disclosed. A first laser input from a first pump laser source has a first average power, and a second laser input from a second pump laser source has a second average power. A first laser output is generated based on conversion of the first laser input and the second laser input at the first state. After generating the first laser output, the second laser input is provided at a second state with the second average power remaining unchanged. After generating the first laser output, a second laser output is generated based on conversion of the first laser input and the second laser input at the second state. Combined powers of the first laser input and the second laser input remain the same when generating the first and second laser outputs, but powers of the first and second laser outputs are different.

Abstract: This disclosure and exemplary embodiments described herein provide a Parallel Content Authoring Method and Tool for Procedural Guidance, and a Remote Expert Method and System Utilizing Quantitative Quality Assurance in Mixed Reality. The implementation described herein is related to the generation of content/instruction set that can be viewed in different modalities, including but not limited to mixed reality, VR, audio text, however it is to be understood that the scope of this disclosure is not limited to such application.

Abstract: An insect repellent material made from recycled polyethylene terephthalate and an insect repellent or from polyethylene terephthalate, N,N-diethyl-meta-toluamide, and picaridin. The material may be in the form of a fiber spun from a solution of the recycled polyethylene terephthalate and the insect repellent.

Abstract: A method that includes receiving user input associated with identifying a threshold point associated with a classification task, identifying, a machine learning model, in the first set of visual data, a machine placement candidate point associated with identifying the threshold point, and identifying, based on the machine placement candidate point, a set of baseline confidence values via a baseline uncertainty model. The method includes training the machine learning model based on a determined state space by identifying, subsequent sets of visual data additional threshold points, receiving user feedback indicating an accuracy, comparing the baseline confidence values with locations associated with the additional threshold points, generating reward values based on an identified amount of error, and configuring the machine learning model based on the reward values.

Abstract: A method of reducing uncertainty in a machine learning model that may include providing a first set of visual data, and receiving user input associated with identifying a threshold point in the first set of visual data. The method may include identifying via a machine learning model, in the first set of visual data, a machine placement candidate point associated with identifying the threshold point, and training, by the processing device, baseline and cognitive uncertainty models. The method may include identifying via the trained baseline uncertainty model, one or more confidence values associated with a machine placement candidate point for a visual feature in a second set of visual data, and identifying via the trained cognitive uncertainty model, one or more confidence values associated with a machine placement candidate point for a visual feature in a second set of visual data, the visual feature being associated with the classification task.

Abstract: This disclosure, and the exemplary embodiments provided herein, include AM processed Ti-MMCs reinforced with either aluminum oxide or tantalum pentoxide. According to an exemplary embodiment, composite feedstock powders of Ti-6Al-4V (Ti64) with 1% and 3% (by volume) reinforcements of either nano-Al2O3 or Ta2O5 are prepared by high energy ball milling and then 3-D printed using SLM.

Abstract: Disclosed herein is a composition having an insect repellent compound and a polymer that is miscible in the insect repellent compound at 23° C. Also disclosed herein is a method of: providing an insect repellent compound, providing a polymer that is miscible in the insect repellent compound at 23° C., and dissolving the polymer in the insect repellent compound to form a composition.

Abstract: An infrared detector and a method for forming it are provided. The detector includes absorber, barrier, and contact regions. The absorber region includes a first semiconductor material, with a first lattice constant, that produces charge carriers in response to infrared light. The barrier region is disposed on the absorber region and comprises a superlatice that includes (i) first barrier region layers comprising the first semiconductor material, and (ii) second barrier region layers comprising a second semiconductor material, different from, but lattice matched to, the first semiconductor material. The first and second barrier region layers are alternatingly arranged. The contact region is disposed on the barrier region and comprises a superlattice that includes (i) first contact region layers comprising the first semiconductor material, and (ii) second contact region layers comprising the second semiconductor material layer. The first and second contact region layers are alternatingly arranged.

Abstract: Methods of collecting liquid samples are disclosed. According to some embodiments, a portion of a sample collection film is unrolled from a first reel to a position adjacent a sample dispenser. A liquid sample is dispensed from the sample dispenser onto the portion of the sample collection film. After dispensing the liquid sample onto the portion of the sample collection film, the portion of the sample collection film is rolled onto a second reel. Related sample collection devices, films, and reels are also disclosed.