Disclosed herein are a conducting network for storing gas such as hydrogen, carbon dioxide, or the like, and a method for preparing the same, and particularly, a conducting network composite including: dopant-doped polyaniline nanofiber supporter; and a polypyrrole layer laminated on the supporter, and a method for preparing the same. According to the present invention, a novel conducting network composite suitable for being used as an energy storage material for various purposes may be provided by a simple and economical method, and since a polyaniline nanofiber having the entangled structure may function as an excellent supporter for forming a network composite material and a thickness of the polypyrrole layer may be easily adjusted, the nanocomposite for being used in various fields may be simply and economically prepared.

A flexible display device includes a display panel, the display panel including a display surface and a rear surface opposite each other, and a plurality of adhesive films on at least one of the display surface and the rear surface, each of the plurality of adhesive films including at least one hole, wherein the plurality of adhesive films have a decreasing density, as a distance from a neutral plane of the flexible display device increases.

Disclosed are methods to form coatings on a substrate, the coatings comprising a blend of a poly(vinyl alcohol) composition comprising a poly(vinyl alcohol) characterized by (i) a hydrolysis level of from about 85 to about 93 mol % and a 4 weight % aqueous viscosity of 15 centipoise (cp) or less; or (ii) a hydrolysis level of about 95 mol % to 100%; and an ionomer comprising a parent acid copolymer that comprises ethylene and about 18 to about 30 weight % of acrylic acid or methacrylic acid, the acid copolymer having a melt flow rate from about 200 to about 1000 g/10 min., wherein about 50% to about 70% of the carboxylic acid groups of the copolymer are neutralized to carboxylic acid salts comprising potassium cations, sodium cations or combinations thereof. Multilayer structures comprising the blend composition on a substrate are also disclosed.

Described herein are shields adapted for permanent attachment or removable attachment in the armpit area of a shirt. The shields are multi-layered fabrics that absorb perspiration, and in certain aspects, are used to control, reduce, or prevent perspiration from bleeding through and being shown on the outer surface of a garment. For example, these garments can include, but are not limited to, a multilayered fabric having at least a first fabric layer configured to wick moisture away from a person's body, at least a second fabric layer configured to absorb the moisture, and at least a third fabric layer that does not absorb moisture. As further described herein, various antimicrobial agents can be included in at least one fabric layer. These antimicrobial agents can be used to reduce or prevent the growth of microbes in and/or on the fabric, and these antimicrobial agents can be used to reduce or prevent odors derived from odor producing microbes.

A method of pressure forming a brown part from metal and/or ceramic particle feedstocks includes: introducing into a mold cavity or extruder a first feedstock and one or more additional feedstocks or a green or brown state insert made from a feedstock, wherein the different feedstocks correspond to the different portions of the part; pressurizing the mold cavity or extruder to produce a preform having a plurality of portions corresponding to the first and one or more additional feedstocks, and debinding the preform. Micro voids and interstitial paths from the interior of the preform part to the exterior allow the escape of decomposing or subliming backbone component substantially without creating macro voids due to internal pressure. The large brown preform may then be sintered and subsequently thermomechanically processed to produce a net wrought microstructure and properties that are substantially free the interstitial spaces.

Provided herein is a negative active material including an ordered porous manganese oxide, wherein pores of the ordered porous manganese oxide have a bimodal size distribution. Provided herein is a method of preparing a negative active material that includes the ordered porous manganese oxide. The invention also includes a negative electrode which includes the negative active material and a lithium battery which includes the negative electrode.

A curable resin composition containing a blend of multifunctional benzoxazines, and composite materials derived therefrom. The benzoxazine blend contains the combination of (A) a difunctional benzoxazine component and (B) a multifunctional benzoxazine component with functionality of greater than 2. Cured matrix resins and cured composite materials containing such benzoxazine blend exhibit a significant retardation in the rate of organic solvent uptake as compared to the same cured matrix resins and composite materials without component (B).

A load-bearing garment, such as a vest, is provided having stretchable web platform on an outside surface, such as between front and back panels of the vest. The stretchable web platform includes stretchable bands that extend horizontally, and vertical webbing extending between multiple horizontal bands. Additional embodiments are directed to a mounting system in a plate carrier for a plate. Still further embodiments are directed to a handle and strap system for a vest or other garment that permits a quick rescue of a person wearing the vest.

An antenna apparatus includes an electrically conductive section having peripheral edges, an antenna element coupled to the electrically conductive section, which transmits or receives electromagnetic signals, and an electromagnetic absorbing carbon material component. The carbon material component is generally disposed adjacent to the electrically conductive section, and includes a border region extending beyond the peripheral edges of the electrically conductive section. The carbon material component can be constructed of a carbon fiber fabric in which the carbon fibers are arranged to increase the effective signal to noise ratio of the antenna apparatus and enhance antenna performance without increasing the baseline power consumption level. The carbon fibers can be coated with silicone to insulate them externally while enhancing their lengthwise conductivity.

Actuators (artificial muscles) comprising twist-spun nanofiber yarn or twist-inserted polymer fibers generate torsional and/or tensile actuation when powered electrically, photonically, chemically, thermally, by absorption, or by other means. These artificial muscles utilize non-coiled or coiled yarns and can be either neat or comprising a guest. Devices comprising these artificial muscles are also described.