Abstract: An air handler unit for use with residential heating, ventilation, and air conditioning (HVAC) systems. The air handler unit has high resistance mediums (HRMs) coupled closely to a wide-angle vane-diffuser mixed-flow fan system. The HRMs are placed immediately upstream and downstream of the wide-angle vane-diffuser mixed-flow fan to form a closely coupled, compact air handler that provides significant efficiency and noise benefits.

Abstract: A needle having shaft that forms a tip and a portion proximate to the tip that is formed from a shape memory polymer. The shaft of the needle may be programmed to curl from a straight configuration to a curved configuration upon triggering by heat, thereby moving the sharp tip and providing a non-stick needle for safe and easy disposal.

Abstract: A shape memory polymer hydrogel that is biodegradable, includes antimicrobial agents, and has a tunable drug delivery is used for wound healing internally and externally. The shape memory polymer is synthesized using a combination of hydrophilic precursors that are configured to have two to four functional end groups, with at least one component that has at least three functional groups. The synthesis route provides for a covalently crosslinked thermoset hydrogel. The chemistry can be tuned to provide desired transition temperatures for delivery (e.g. below 37° C.) and desired pore sizes for healing (e.g. 250-500 ?m).

Abstract: A series of chimeric peptides that provide a mechanism for obesity treatment concomitant with T2DM in the form of dual agonism of the anorectic neuropeptide Y-receptor (Y2-R) and the glucoregulatory receptor GLP1-R. Preliminary results show that, dependent on the selected peptide, once-daily administration suppress FI in male and female rats can be reduced to 12-65% compared to baseline conditions before treatment, dependent on dose and age of animals, and glucose tolerance can be improved as well. Peptides also demonstrated Y1-receptor agonism, conferring protection on beta-islet cells against inflammatory damage. The peptides were designed by targeting serial anorectic pathways simultaneously and are promising candidates for modulating FI and glucoregulation in an efficacious and safe way.

Abstract: The invention involves the coupling of compounds that can be bound by Haptocorrin (R-binder; Transcobalamin I; HC) to a target drug to improve pharmacokinetics, avoid undesirable side effects, and/or modify CNS access and localization. The pharmaceutical effect may be improved by conjugating the drug to haptocorrin binding substrate. This allows the conjugate to become bound to unsaturated haptocorrin in the blood, thereby protecting the drug from metabolism or excretion to increase protein half-life while not interfering with the efficacy of the protein drug. The conjugation may additionally prevent the drug from reaching the central nervous system or modify where the drug localizes and produces undesirable side effects such as nausea or hypophagia. Such a route also would prevent, in all case save for actual vitamin B12, binding by serum transcobalamin II (TCII), and thus not cause B12 deficiency with long term use.

Abstract: Synthetic disaccharide hydrocarbons (DSHs) that reactive bacterials swarming motility and inhibit bacterial adhesion and biofilm formation. A library of DSHs were tested in several experiment for the impact on various Pseudomonas aeruginosa populations and compared against existing compounds to determine efficacy and utility. Certain DSHs were also to determine the ability to clear bacteria in a mouse pneumonia model.

Abstract: A system and method for minimizing indoor infection risk and improving indoor air quality (IAQ) while maximizing energy savings. The system integrates occupancy detection and forecasting, outdoor weather conditions and forecasting, indoor infection risks and air quality modeling, any tunable air filtration, the clean air delivery rate, and any portable air cleaners. The system outputs the total amount of outdoor air intake, the air temperature of the supply air into the space, the supply air flow rate into the space, the operation mode of tunable air filtration/purification/disinfection, the operation mode of the in-room air cleaner, and space/room temperature set-points, and thus can serve as the central controller for an HVAC system.

Abstract: Superconducting metamaterials composed of lumped-element inductors and capacitors are used to implement microwave photonics with novel dispersion relations and dense mode spectra that can be coupled to qubits. Metamaterial lattices may have qubits coupled to different unit cells in the metamaterial such that each qubit will couple strongly to modes with an antinode at the qubit location. Through simultaneous driving of combinations of modes, large amplitudes are produced at only one or a few unit cells, resulting in large ac Stark shifts of qubits located there, and providing a frequency-addressable qubit array without requiring flux-tunability and with reduced control wiring.

Abstract: A hybrid laser printing (HLP) technology that utilizes ultrafast laser in sequential additive-subtractive modes to create 3D hydrogel constructs. The approach involves the synergistic use of additive crosslinking and subtractive ablation processes that are conventionally mutually exclusive. HLP can be operated at virtually any penetration depth and allow fabrication of multi-layer hydrogel constructs at micrometer resolution. HLP was used to print ready-to-use functional chips using commonly used hydrogels for potential cellular communication and migration applications. HLP was also found to be compatible with in situ printing of cell-laden hydrogel constructs. HLP makes shaping of soft hydrogels into 3D multiscale functional devices possible.

Abstract: Artificial lipoproteins bearing non-canonical post-translational modifications that are synthesized by leveraging substrate promiscuity of an acyltransferase. The non-canonical functionality of these lipoprotein results in a distinctive hysteretic assembly that is absent from the canonical lipoproteins and is used to prepare hybrid multiblock materials with precise and programmable patterns of amphiphilicity due to the unique assembly and function of the non-canonical post-translational modifications.

Abstract: A multiple-input multiple-output (MIMO) communication system that addresses three major challenges in airborne MIMO communications, namely, antenna blockage due largely to the movement and orientation of the airborne platforms, the presence of unknown interference inherent to the intended application, and the lack of channel state information (CSI) at the transmitter. The system is implemented on a Diagonal Bell-Labs Layered Space-Time (D-BLAST) MIMO architecture and includes spatial spreading to counter antenna blockage, temporal spreading to mitigate signal to interference and noise ratio degradation due to intended or unintended interference, and a simple low rate feedback scheme to enable real time adaptation in the absence of full transmitter CSI.

Abstract: A system for evaluating a DNA sample and determining whether the sample contains related individuals and/or unrelated individuals with high levels of alleles sharing. Trained and pre-validated machine learning algorithms are to rapidly and probabilistically assess the presence of relatives in a DNA mixture. To make a probabilistic determination, the system evaluates aspect of the sample that have not be considered before, such as peak heights, peak height ratios, maximum peak heights, minimum peak heights, ratios of allele heights to one another, number of contributors using maximum allele count method, and quantitative measures of the amount of DNA contributed by the male and female organisms. The system identifies whether a DNA sample has contributors that are not readily identifiable based on the data and can thus improve downstream analysis.

Abstract: The present invention provides compositions and methods for lowering blood glucose. More specifically, the present invention provides compositions comprising a complex comprising IF and B12 conjugated to a peptide comprising a GLP-1 agonist. Advantageously, the composition may be delivered subcutaneously.

Abstract: A hybrid laser printing (HLP) technology that utilizes ultrafast laser in sequential additive-subtractive modes to create 3D hydrogel constructs. The approach involves the synergistic use of additive crosslinking and subtractive ablation processes that are conventionally mutually exclusive. HLP can be operated at virtually any penetration depth and allow fabrication of multi-layer hydrogel constructs at micrometer resolution. HLP was used to print ready-to-use functional chips using commonly used hydrogels for potential cellular communication and migration applications. HLP was also found to be compatible with in situ printing of cell-laden hydrogel constructs. HLP makes shaping of soft hydrogels into 3D multi scale functional devices possible.

Abstract: The invention involves the coupling of compounds that can be bound by Haptocorrin (R-binder; Transcobalamin I; HC) to a target drug to improve pharmacokinetics, avoid undesirable side effects, and/or modify CNS access and localization. The pharmaceutical effect may be improved by conjugating the drug to haptocorrin binding substrate. This allows the conjugate to become bound to unsaturated haptocorrin in the blood, thereby protecting the drug from metabolism or excretion to increase protein half-life while not interfering with the efficacy of the protein drug. The conjugation may additionally prevent the drug from reaching the central nervous system or modify where the drug localizes and produces undesirable side effects such as nausea or hypophagia. Such a route also would prevent, in all case save for actual vitamin B12, binding by serum transcobalamin II (TCII), and thus not cause B12 deficiency with long term use.

Abstract: Surface modifications and improvements to piezoelectric-based sensors, such as QCMs and other piezoelectric devices, that significantly increase the sensitivity and the specificity (selectivity). These modifications can comprise mechanical and chemical changes to the surfaces of the sensors, either individually or together. For example, nanosize structures may be provided on the surface to improve sensitivity. Additionally, chemical coatings may be tethered to the surfaces, walls, or crystal to provide targeted sensitivity. Additionally, porous, layered and multiple sensor arrays may be formed to enhance sensitivity and selectivity.

Abstract: A quantum computing transducer having a dense, tunable superconducting metamaterial transmission line (SMTL) spectrum that can resonantly enhance sideband scattering. The resonant enhancement of scattering boosts the scattering rate, and hence also the microwave-to-optical-interface (MOQI) transduction efficiency. Moreover, the integration of mechanical elements with the SMTL to realize the MOQI yields a platform that can be readily interfaced on chip, such as in an integrated circuit, with superconducting-qubit architectures to facilitate the local implementation of two of the essential functionalities required for a quantum repeater, i.e., data egress/ingress and a quantum processing module.

Abstract: A hybrid power system for an unmanned aerial system (UAS) having a liquid fuel engine and a solid oxide fuel cell coupled to the exhaust of the engine for generating electricity that is used by the electric motors of the UAS to create lift and control flight. A conventional remote control (r/c) liquid fuel engine may be used generate exhaust gases including hydrogen and carbon monoxide that are used by a SOFC coupled to the exhaust of the r/c engine to generate electricity. The electric motors of the UAS may thus be powered by the electricity generated by the SOFC.

Abstract: Simultaneous 2-D room shape reconstruction and self-localization is accomplished using no pre-established infrastructure. A mobile device with co-located microphone and loudspeaker is used to collect echoes reflected by the walls. The system uniquely recovers arbitrary 2-D convex room shape as well as the position of mobile device 10 by collecting and processing distances between three consecutive measurement points as well as acoustic echoes from the device. A practical algorithm for room shape reconstruction and self-localization in the presence of noise and higher order echoes is proposed. Experimental results are provided to demonstrate the effectiveness of the approach.

Abstract: A nanoparticle with tunable radial gradients of compositions extending from the center of the nanoparticles. The nature of the gradient preserves the metallic state of the nanoparticles, the diffusion of the constituents, and the oxidation of the interface. The gradients can be purposely varied to allow for specific applications in fields ranging from corrosion, magnetics, information technology, imaging, electromagnetic absorption, coating technologies, and immuno-precipitation. The nanoparticles can be easily used to advance many areas of industry, technology, and life sciences.