Abstract: A two-component biomaterial and method that replicates both the structural complexity and diverse molecular composition necessary to create a tissue's form and function. It is an objective of the current invention to use the unique combination material and methods herein to provide a pharmaceutical composition, a medical device, a tissue regeneration scaffold, as well as a scaffold for 3D organ culture (tissue on a chip, lab grown meat, research stem cell differentiation) comprising a significant amount of acellular tissue particles packed tightly and held together via crosslinking between the acellular particles and a thiolated protein.

Abstract: Surface polarity of a ferroelectric nematic can be configured to generate vectorial control of the orientation of its bulk polarization field. The contact between a surface with in-plane polarity and a ferroelectric nematic liquid crystal generates preferred in-plane orientation of the ferroelectric polarization field at that interface, which can lead to the formation of fluid or glassy monodomains of high polarization without electric field poling.

Abstract: Functionalized zeolites, including a zeolite substrate and a self-assembled monolayer of a phosphonic acid on a surface of the zeolite substrate, are disclosed, as are methods of making and using the functionalized zeolites. The disclosed methods and compositions have various applications, including in the use of molecular sieves to separate small-molecule gases from mixtures thereof. Gas adsorption selectivities and diffusion rates of the functionalized zeolites may be tuned or selected according to the disclosed methods.

Abstract: Methods of treating, reducing the risk of, preventing, or alleviating at least one symptom of a retinal disease, injury, or condition in a subject involve administering a pharmaceutically effective amount of kynurenic acid to the subject. The kynurenic acid may be administered intravenously or intravitreally. Systems for treating retinal diseases, injuries, or conditions are also disclosed and may include an administration device.

Abstract: Provided herein is a class of reversible thermal gel polymers, formulations thereof, methods for using, and methods for making said reversible thermal gel polymers. Reversible thermal gel polymers and formulations are provided having versatile chemical, physical, mechanical and/or optical properties beneficial for a range of applications including medical treatment. In some embodiments, the architecture and composition of the polymer allows for tunable selection of one or more physical properties supporting a particular application.

Abstract: A wideband amplifier includes a first diplexer receiving broadband input signals and divides them by frequency into a low band input signal and a high band input signal. The amplifier has separate high band and low band amplifiers coupled to amplify the low and high band input signals, and a second diplexer coupled to combine outputs of the low and high band amplifiers to form a wideband output. A method of amplification of an input signal includes separating the input signal into high and low band signals, separately amplifying the high and low band signals, and combining amplified high and low band signals into an output signal.

Abstract: A system and method for nanoparticle synthesis employing an adhesiveless, deconstructable microfluidic mixing chip and an expandable wireless network of syringe pumps fluidly coupled to one or more microfluidic mixing chips. The wireless network of syringe pumps is controlled by a microprocessor with feedback from each of the syringe pumps in the network to allow for both individual, grouped and multiplexed control over the plurality of syringe pumps in the network.

Abstract: Phenothiazine compounds of Formula (I) are described herein. These compounds are useful as highly reducing organic photoredox catalysts. Suitable substrates for use with the compounds of Formula (I) include acrylates, styrene, acrylamides, acrylonitrile, vinyl chloride, methylacrylonitrile, vinyl acetate, and acrylic acid.

Abstract: An ophthalmic implant including an intraocular lens (IOL) and at least one drug delivery device. The IOL including an anterior side, a posterior side, a lens, and at least one haptic extending outwardly from the lens and including a first haptic extending from the lens at a first optic-haptic junction. The at least one drug delivery device including a first drug delivery device including a pad and a fixation portion extending from the pad. The pad including at least one therapeutic agent contained therein, an anterior surface, a posterior surface, and a sidewall extending around the pad and between the anterior surface and the posterior surface. The drug delivery device configured for attachment to the IOL via the fixation portion. In an assembled state of the implant, the first drug delivery device is attached to the IOL and the pad overlays the first optic-haptic junction.

Abstract: Methods of treating or preventing stress, anxiety, or postoperative cognitive dysfunction. Also provided are methods of improving resilience in a subject by administering a therapeutically effective amount of isolated mycobacterium.

Abstract: Disclosed herein are methods and compositions useful in reducing inflammation, reducing inflammatory exudates, enhancing epithelial tissue generation or regeneration, and/or reducing mean pulmonary artery pressure in the lungs of a subject in need thereof. In particular, the compositions comprise vitamin D, an analog, or metabolite thereof, and the methods include administering the composition to a subject in need thereof. In some embodiments, the subject is suffering from an infection, such as a viral infection, which affects the lungs. In some embodiments, the viral infection comprises SARS-CoV-2.

Abstract: An electro-hydraulic actuator includes a deformable shell defining an enclosed internal cavity and containing a liquid dielectric, first and second electrodes on first and second sides, respectively, of the enclosed internal cavity. An electrostatic force between the first and second electrodes upon application of a voltage to one of the electrodes draws the electrodes towards each other to displace the liquid dielectric within the enclosed internal cavity. The shell includes active and inactive areas such that the electrostatic forces between the first and second electrodes displaces the liquid dielectric within the enclosed internal cavity from the active area of the shell to the inactive area of the shell. The first and second electrodes, the deformable shell, and the liquid dielectric cooperate to form a self-healing capacitor, and the liquid dielectric is configured for automatically filling breaches in the liquid dielectric resulting from dielectric breakdown.

Abstract: Disclosed herein are devices, systems, and methods for fabricating alkali vapor cells. The methods disclosed herein comprise depositing a fluid into a reservoir of a device, the device comprising: a reservoir, a set of receptacles, and a set of conduits fluidly connecting each of the receptacles to the reservoir; such that, when a fluid is placed in the reservoir, the fluid flows to each of the receptacles via capillary action. Also disclosed herein are methods comprising flowing a fluid from an inlet to an outlet of a lumen of a main conduit of a device, the device further comprising a set of receptacles, each of the receptacles being in fluid communication with the lumen of the main conduit; such that, when a fluid flows from the inlet to the outlet through the lumen of the main conduit, the fluid further flows into each of the receptacles via capillary action.

Abstract: A microsurgical device and methods of its use can be used for treatment of various conditions including eye diseases, such as glaucoma, using minimally invasive surgical techniques. A device can be used for cutting the trabecular meshwork (“TM”) in the eye. The device tip provides entry into the Schlemm's canal via its size (i.e., for example, 0.2-0.3 mm width) and configuration where a ramp elevates the TM away from the outer wall of the Schlemm's canal and guides the TM to first and second lateral elements for creating first and second incisions through the TM. The dimensions and configuration of the device is such that an entire strip of TM is removed without leaving TM leaflets behind and without causing collateral damage to adjacent tissues.

Abstract: This disclosure describes single and multi-layer woven meshes designed to enable sucking flow condensation and capillary-driven liquid film boiling, respectively, for instance, in use in heat spreaders. The single-layer woven meshes can include a nanostructure coating and a hydrophobic coating, while the multi-layer meshes can include a microcavity coating and optionally a hydrophilic coating.

Abstract: A microsurgical device and methods of its use can be used for treatment of various conditions including eye diseases, such as glaucoma, using minimally invasive surgical techniques. A dual-blade device can be used for cutting the trabecular meshwork (“TM”) in the eye. The device tip provides entry into the Schlemm's canal via its size (i.e., for example, 0.2-0.3 mm width) and configuration where a ramp elevates the TM away from the outer wall of the Schlemm's canal and guides the TM to first and second lateral elements for creating first and second incisions through the TM. The dimensions and configuration of the blade is such that an entire strip of TM is removed without leaving TM leaflets behind and without causing collateral damage to adjacent tissues.

Abstract: An ophthalmic implant including an IOL with haptics, and drug delivery devices secured to the haptics. The posterior-most extent of the drug delivery device is located anterior to the posterior edge or PCE barrier edge, of the IOL. In other configurations, the drug delivery devices are provided with PCO barrier edges.

Abstract: A polymer brush composed of statistical copolymers of hydrophilic and hydrophobic monomers for enzyme immobilization. The heterogeneous polymer brushes stabilized four different lipases against high temperatures. Notably, the statistical copolymers stabilized the four lipases to a greater extent than a homopolymer brush. Additionally, in the case of Rhizomucor miehei lipase, statistical copolymers stabilized the enzyme to a greater extent than homopolymers of either hydrophilic or hydrophobic monomers. The resulting increase in high-temperature stability enabled significant improvements in catalytic rates by operating reactions at elevated temperatures, which is desirable for enzyme catalysis and sensing applications. Additionally, stabilization against elevated temperatures implies stabilization against non-aqueous solvents, which is of critical importance to numerous applications of biocatalysts.