Abstract: The present invention includes scalable and cost-effective auxetic foam sensors (AFS) created through conformably coating a thin conductive nanomaterial-sensing layer on a porous substrate having a negative Poisson's ratio. In general, the auxetic foam sensors possess multimodal sensing capability, such as large deformation sensing, small pressure sensing, shear/torsion sensing and vibration sensing and excellent robustness in humidity environment.

Abstract: Provided are organic metal halide crystals having a 1D nanotube structure. The metal halide crystals may have a unit cell that includes two or more face-sharing metal halide dimers. The metal halide crystals also may include organic cations. Methods of forming metal halide crystals having a 1D nanotube structure also are provided.

Abstract: The present invention concerns the use of compounds for the treatment or prevention of Flavivirus infections, such as Zika virus infections. Aspects of the invention include methods for treating or preventing Flavivirus virus infection, such as Zika virus infection, by administering a compound or class of compound disclosed herein, such as a niclosamide compound, an emricasan compound, a cyclin-dependent kinase inhibitor, a proteasome inhibitor, or a combination of two or more of the foregoing, to a subject in need thereof; methods for inhibiting Flavivirus infections such as Zika virus infections in a cell in vitro or in vivo; pharmaceutical compositions; packaged dosage formulations; and kits for treating or preventing Flavivirus infections, such Zika virus infections.

Abstract: Provided herein are methods of making composite materials. The methods may include infiltrating a carbon nanoscale fiber network with a ceramic precursor, curing the ceramic precursor, and/or pyrolyzing the ceramic precursor. The infiltrating, curing, and pyrolyzing steps may be repeated one or more times. Composite materials also are provided that include a ceramic material and carbon nanoscale fibers.

Abstract: Compositions that include an ion exchange resin and a polyelectrolyte. The polyelectrolyte may be adsorbed to at least a portion of a surface of the ion exchange resin. Methods of treating a liquid with a composition, and methods of forming a composition that includes an ion exchange resin and a polyelectrolyte.

Abstract: A MNase-Sequence Capture method, mTSS-seq, was developed herein to map genome-wide nucleosome distribution in cancer, for example primary human lung and colon adenocarcinoma tissue. Here, it was confirmed that nucleosome redistribution is an early, widespread event in lung adenocarcinoma (LAC) and colon adenocarcinoma (CRC). These altered nucleosome architectures are consistent between LAC and CRC patient samples indicating that they can serve as important early adenocarcinoma markers. As such, this consistency would be expected in other adenocarcinomas, as well as other carcinomas. It was demonstrated that the nucleosome alterations are driven by the underlying DNA sequence and potentiate transcription factor binding. DNA-directed nucleosome redistributions are widespread early in cancer progression, thus providing a methodology for early detection of cancer in grade one patients.

Abstract: A method of making an electrode for an electrochemical cell includes the step of providing an electrode composite comprising from 70-98% active material, from 0-10% conductive material additives, and from 2-20% polymer binder, based on the total weight of the electrode composite. The electrode composite is mixed and then compressed the electrode composite into an electrode composite sheet. The electrode composite sheet is applied to a current collector with pressure to form an electrode, wherein the electrode possesses positive characteristics for adhesion according to ASTM standard test D3359-09e2, entitled Standard Test Methods for Measuring Adhesion by Tape Test, and wherein the electrode composite sheet and the electrode possess positive characteristics for flexibility according to the Mandrel Test. The binder can be a single nonfluoropolymer binder. Dry process electrodes are also disclosed.

Abstract: A chimeric protein having deubiquitinase activity, methods of identifying anti-deubiquitinase compounds using chimeric proteins, and kits comprising chimeric proteins are described herein. In one aspect, a chimeric protein comprises a mammalian deubiquitinase catalytic domain, a linker domain, and a non-human deubiquitinase proteasome binding domain. In another aspect, a method of identifying a compound having deubiquitinase inhibition activity comprises a) providing an assay for identifying a compound having deubiquitinase inhibition activity, wherein the assay comprises one or more biological cells comprising a chimeric protein comprising a mammalian deubiquitinase catalytic domain, a linker domain, and a non-human deubiquitinase proteasome binding domain; b) screening the assay with at least one compound; and c) identifying a compound having deubiquitinase inhibition activity based on survival of the biological cell.

Abstract: Forward and back electron transfer at molecule oxide interfaces are pivotal events in dye-sensitized solar cells, dye-sensitized photoelectrosynthesis cells and other applications. Disclosed herein are self-assembled multilayers as a strategy for manipulating electron transfer dynamics at these interfaces. The multilayer films are achieved by stepwise layering of bridging molecules, linking ions, and active molecule on an oxide surface. The formation of the proposed architecture is supported by ATR-IR and UV-Vis spectroscopy. Time-resolved emission and transient absorption establishes that the films exhibit an exponential decrease in electron transfer rate with increasing bridge length. The findings indicate that self-assembled multilayers offer a simple, straight forward and modular method for manipulating electron transfer dynamics at dye-oxide interfaces.

Abstract: Wire-shaped perovskite devices and methods for manufacturing the same are provided. The perovskite devices have a uniform layer thickness of perovskite material on wire-shaped substrates of semi-conductor or carbon material. The method includes an electro-coating process, which advantageously allows for predictability and repeatability.

Abstract: Disclosed are non-naturally occurring zebrafish, such as transgenic zebrafish, which comprise a mutation in the rhodopsin (rho) gene. Also disclosed are methods of identifying compounds useful in treating retinal-specific defects and disorders, such as degeneration. Further disclosed are methods of identifying mutations in the rhodopsin gene that can cause retinal-specific defects.

Abstract: Provided herein are methods off functionalizing a carbon nanotube, functionalized carbon nanotubes, methods of forming a suspension, and methods of forming a sensor. The methods may include contacting one or more carbon nanotubes with a dienophile in the presence of a supercritical fluid to form one or more functionalized carbon nanotubes. The one or more functionalized carbon nanotubes may have a degree of functionalization of about 1% to about 5%.

Abstract: Single-layer LEDs were developed using a composite thin film of organometal halide perovskite (Pero) and poly (ethylene oxide) (PEO). Single-layer Pero LEDs have a device structure that resembles “bottom electrode (ITO)/Pero-PEO/top electrode (In/Ga or Au)”. Green emission LEDs with methylammonium lead bromide (bromide-Pero) and PEO composite thin films exhibit a low turn-on voltage of about 2.8-3.1 V (defined at 1 cd m?2 luminance), a maximum luminance of 4064 cd m?2 and a moderate maximum current efficiency of about 0.24-0.74 cd A?1. Blue and red emission LEDs have also been fabricated using Cl/Br or Br/I alloyed Pero-PEO composite thin films.

Abstract: An example of a bottlebrush polymer has a polymer backbone and a plurality of individual brush moieties bonded to the polymer backbone. The individual brush moieties respectively including a ketone, a hydrophilic segment, and a surface adhesive terminal group. The brush moieties can be functionalized and/or cross-linked.

Abstract: The subject invention concerns materials and methods for increasing and/or improving photosynthetic efficiency in plants, and in particular, C3 plants. In particular, the subject invention provides for means to increase the number of bundle sheath (BS) cells in plants, to improve the efficiency of photosynthesis in BS cells, and to increase channels between BS and mesophyll (M) cells. In one embodiment, a method of the invention concerns altering the expression level or pattern of one or more of SHR, SCR, and/or SCL23 in a plant. The subject invention also pertains to genetically modified plants, and in particular, C3 plants, that exhibit increased expression of one or more of SHR, SCR, and/or SCL23. Transformed and transgenic plants are contemplated within the scope of the invention.

Abstract: A novel LPWAN technology includes a ZCNET node that transmit signals that occupy a very small fraction of the signal space, resulting in very low collision probabilities. ZCNET supports parallel root channels within a single frequency channel by using Zadoff-Chu (ZC) root sequences. The root channels do not severely interfere with each other, because the interference power is spread evenly over the entire signal space. ZCNET has its node randomly choose the transmission channel and range, while still achieving high packet receiving ratios such as 0.9 or above, because the load in each root channel is small.

Abstract: Systems and methods for providing a phase modulator. The methods comprise creating a Field Effect Transistor (FET) by: placing a crystal structure displaying ambipolarity on a substrate comprising an oxide layer and a conductive silicon layer, the conductive silicon layer providing a gating electrical contact for the phase modulator, and forming source and drain electrical contacts on the crystal structure using e-beam lithography and an e-beam evaporator. The methods also comprising: annealing the FET to improve an interface between the crystal structure and the source and drain electrical contacts; and coating the FET with a dielectric layer to reduce or eliminate hysteresis so that a functionality of the phase modulator is improved.

Abstract: Temperature sensors, pressure sensors, methods of making the same, and methods of detecting pressures and temperatures using the same are provided. In an embodiment, the temperature sensor includes a ceramic coil inductor having a first end plate and a second end plate, wherein the ceramic coil inductor is formed of a ceramic composite that comprises carbon nanotubes or, carbon nanofibers, or a combination of carbon nanotubes and carbon nanofibers thereof dispersed in a ceramic matrix; and a thin film polymer-derived ceramic (PDC) nanocomposite disposed between the first and the second end plates, wherein the thin film PDC nanocomposite has a dielectric constant that increases monotonically with temperature.

Abstract: Provided herein are methods of making metal halide perovskites, including methods of making bulk crystals or micro crystals. The metal halide perovskites may be a light emitting material.

Abstract: Composite materials are provided which may include one or more sheets of carbon fibers woven in orthogonal direction bundles; carbon nanotubes embedded within pores between the bundles; and a matrix material in which the one or more sheets and the carbon nanotubes are embedded. In one case, the carbon fibers lie substantially in an x-direction and a y-direction and the carbon nanotubes are oriented substantially in a z-direction, which is substantially perpendicular to the x- and y-directions. Methods for making the composite materials are also provided.