Abstract: This disclosure provides compositions and methods of using these compositions to mediate a targeted trans-splicing event on a pre-mRNA in a cell.

Abstract: Disclosed herein include systems, devices, and methods for detecting embryo polarization from a 2D image generated from a 3D image of an embryo that is not fluorescently labeled using a convolutional neural network (CNN), e.g., deep CNN.

Abstract: An accommodating intraocular lens (IOL) is formed from an anterior or posterior half molded as a chambered, polymer sack with a mouth opening smaller than its largest width that is mated to another half molded as a pliable bowl having a rim larger than the rest of the half. The resulting shell has a seam that is parallel to and does not cross or touch the equator such that the IOL is asymmetric between its front and back. A circular depression around the optical axis can be made in the anterior and/or posterior half such that a surrounding capsular bag seals against the rim of the depression, and an interior of the depression(s) does not touch the capsular bag.

Abstract: The invention provides for systems, methods, and compositions for targeting and editing nucleic acids. In particular, the invention provides non-naturally occurring or engineered DNA-targeting systems comprising a DNA-targeting Cpf1 protein, at least one guide molecule, and at least one cytidine deaminase protein or catalytic domain thereof.

Abstract: Provided herein are compounds, such as compounds of Formulae (I) and (III), and compositions, methods, uses, and kits thereof. The compounds provided herein are poly(?-amino esters) useful for delivery of agents, such as vitamins and minerals, for the treatment and/or prevention of various diseases and conditions (e.g., micronutrient deficiency).

Abstract: A method of designing a metal alloy powder having a miscibility gap at low temperature is disclosed. The method includes identifying a first metal element and a second metal to form a metal alloy. selecting a third metal having a miscibility gap with the metal alloy. and mechanically alloying the third metal and the metal alloy to form a metal alloy powder having a nanoscale grain size. The metal alloy powder can be engineered to have a phase separation temperature at which diffusion of the third metal occurs to phase separate as a nanoscale phase. The nanoscale phase can redissolve at a transition temperature higher than the phase separation temperature.

Abstract: Removal of gas-evolving species from powders can be achieved before sintering occurs, reducing or eliminating gas evolution in a dense body that can lead to swelling, or lowering of density.

Abstract: Compositions comprising an electronically conductive polymer and a metal-organic framework (MOF), and related sensors and methods of sensing analytes, are generally described.

Abstract: A new class of weakly coordinating anions (WCA) based on silicates is disclosed. Facile tuning of sterics and solubility of the disclosed WCA may be achieved via variation of R groups. The anions support a range of cations employed in chemical reactivity, including ether-free alkali cations, Ag+, Ph3C+, Fc+, [NiI(COD)2]+. In one aspect, [Pd(dppe)(NCMe)Me]+ may be generated by salt metathesis or protonation of a metal-alkyl bond, showcasing the ability of the anions to support applications in coordination chemistry and catalysis. Electrochemical studies on the [Bu4N]+ variant show an exceptionally wide stability window for the MeSiF24? anion of 7.5 V in MeCN. CV experiments demonstrate reversible Mg deposition and stripping.

Abstract: Disclosed herein are compositions of retroviruses and methods of using the same for gene delivery, wherein the retroviruses comprise a viral envelope protein comprising at least one mutation that diminishes its native function, a non-viral membrane-bound protein comprising a membrane-bound domain and an extracellular targeting domain.

Abstract: Described herein are concepts, system and techniques which provide a means to construct robust high-field superconducting magnets using simple fabrication techniques and modular components that scale well toward commercialization. The resulting magnet assembly—which utilizes non-insulated, high temperature superconducting tapes (HTS) and provides for optimized coolant pathways—is inherently strong structurally, which enables maximum utilization of the high magnetic fields available with HTS technology. In addition, the concepts described herein provide for control of quench-induced current distributions within the tape stack and surrounding superstructure to safely dissipate quench energy, while at the same time obtaining acceptable magnet charge time. The net result is a structurally and thermally robust, high-field magnet assembly that is passively protected against quench fault conditions.

Abstract: Systems, articles, and methods generally related to the electrochemical formation of layers comprising halogen ions on substrates are described.

Abstract: An electro-optic modulation structure 110, a method for fabrication of the electro-optic modulation structure, and a method of optical modulation derived from an electro-optic modulation structure with low voltage of operation are disclosed. The low voltage operation of the electro-optic modulator is realized by designed electro-optic modulation structures that include the light confining waveguide 114, overclad layer 120 and modulating electrode structure 116 for applying modulation voltages that are directed towards a low voltage operation of the electro-optic modulation 110 device upon consideration of optimal optical loss.

Abstract: A Floquet mode traveling wave parametric amplifier (TWPA) is disclosed. The Floquet mode TWPA comprises a plurality of stages, where each stage is made up of a nonlinear element and a shunt capacitor. The nonlinear elements may be Josephson junctions, or a combination of series and/or parallel Josephson junctions. The Floquet mode TWPA is designed such that the critical current of the nonlinear elements in each stage is not constant. In some embodiments, the ratio of the largest critical current to the smallest critical current in the Floquet mode TWPA is at least 2:1. In some embodiments, the nonlinear elements with the largest critical current are disposed at or near the input or output of the amplifier. In this way, reflections and backward amplification may be minimized. Further, the TWPA is formed using planar capacitors on a high resistivity substrate, or using low loss parallel plate capacitors.

Abstract: A mixed ionic-electronic conductor (MIEC) in contact with a solid electrolyte includes a material having a bandgap less than 3 eV. The material includes an end-member phase directly connected to an alkali metal by a tie-line in an equilibrium phase diagram. The material is thermodynamically stable with a solid electrolyte. The MIEC includes plurality of open pores, formed within the MIEC, to facilitate motion of the alkali metal to at least one of store the alkali metal in the plurality of open pores or release the alkali metal from the plurality of open pores. The solid electrolyte has an ionic conductivity to ions of the alkali metal greater than 1 mS cm?1, a thickness less than 100 ?m, and comprises at least one of a ceramic or a polymer.

Abstract: Compositions comprising fused aromatic systems and associated electrodes, electrochemical cells, and charge storage devices are generally described. Preferably, the aromatic comprising a bis-tetraamino-benzoquinone molecule and/or a tautomer, oligomer, and/or polymer thereof. Alternatively, the aromatic composition comprises an active material comprising a fused aromatic system comprising carbon atoms, hydrogen atoms, and a plurality of heteroatoms each replacing a carbon atom.

Abstract: Provided herein are oligonucleotides, cell penetrating peptides, and peptide-oligonucleotide-conjugates. Also provided herein are methods of treating a muscle disease, a viral infection, or a bacterial infection in a subject in need thereof, comprising administering to the subject oligonucleotides, peptides, and peptide-oligonucleotide-conjugates described herein.

Abstract: Methods involving physics-informed deep learning to help solve inverse problems of solid materials/structures related to unknown geometry include (1) identifying and characterizing unknown materials/structures and defects with accuracy and predictive capability and limited non-destructive measurements, and/or (2) designing geometrical features and parameters of solid materials and structures to achieve optimized and/or improved performance.

Abstract: Liquid Crystal Elastomer (LCE) fibers, an apparatus for manufacturing, and a method for using the apparatus are provided. LCE fibers formed from each of a plurality of resin recipes can undergo reversible temperature driven actuation of the fiber. Each of the resin recipes forms a fiber having a different actuation temperature. The apparatus includes: an extrusion device, a drawing bobbin, a coating basin, a collector bobbin, a first plurality of curing devices, and a second plurality of curing devices, to transform a resin recipe into a LCE fiber. In operation, the extrusion device extrudes the resin through to the first plurality of curing devices for a partial cure. Once in contact with drawing bobbin the resin is coated in a fluid, and then pull through the second plurality of curing devices for a final cure by collector bobbin, where it can be collected and post-processed.

Abstract: Some aspects are directed to an all-on-chip, optoelectronic device for sampling arbitrary, low-energy, near-infrared waveforms under ambient conditions. This solid-state integrated detector uses optical-field-driven electron emission from resonant nanoantennas to achieve petahertz-level switching speeds by generating on-chip attosecond electron burst. Also disclosed is a cross-correlation technique based on perturbation of local electron field emission rates that allows for the full characterization of arbitrary electric fields down to 1 femtojoule, and/or on the order of 500 kV/m, using plasmonic nanoantennas.