The present application relates to a freeze-dried polymer composition containing chitosan and at least one lyoprotectant, a process for preparing a freeze-dried composition containing chitosan and at least one lyoprotectant and the use of a reconstituted freeze-dried chitosan composition to prepare implants for tissue repair.

Lead-free piezoelectric composites and methods of making and uses thereof are described. The lead-free piezoelectric composites have high flexibility and high piezoelectric properties.

A method for controlling the encapsulation efficiency and burst release of water soluble molecules from nanoparticle and microparticle formulations produced by the inverted Flash NanoPrecipitation (iFNP) process and subsequent processing steps is presented. The processing steps and materials used can be adjusted to tune the encapsulation efficiency and burst release of the encapsulated water-soluble material. The encapsulation efficiency of the soluble agent in the particles and the burst release of the soluble agent from the particles can be controlled by: (1) the copolymers used in the assembly or coating process, (2) the degree of crosslinking of the nanoparticle core, (3) the incorporation of small molecule or polymeric additives, and/or (4) the processing and release conditions employed.

The disclosure is directed at a method and system for generating a polymer-perovskite hybrid (PPH). The PPH can then be used in the manufacture of a final product, such as a solar cell or photon detectors. The PPH is generated by the mixing of a precursor solution including a Lewis acid chemical component and a cation component with a polymer. The mixture is then synthesized to generate the PPH.

The disclosure is directed at a method and system for generating a polymer-perovskite hybrid (PPH). The PPH can then be used in the manufacture of a final product, such as a solar cell or photon detectors. The PPH is generated by the mixing of a precursor solution including a Lewis acid chemical component and a cation component with a polymer. The mixture is then synthesized to generate the PPH.

A thermally conductive phase-change composition includes a mixture of 5 to 25 weight percent thermoplastic polymer; 20 to 45 weight percent phase-change material; and 30 to 65 weight percent thermally conductive particles, wherein weight percent is based on the total weight of the composition and totals 100 weight percent, and wherein thermal conductivity of the composition is at least 3.0 W/m-K at a temperature below the transition temperature of the phase change material and thermal conductivity of the composition is at least 2.0 W/m-K at a temperature above the transition temperature of the phase change material, wherein thermal conductivity is determined in accordance with ASTM E1530. The phase-change compositions are reworkable and can be easily and cleanly removed from a device for maintenance and repair and repositioned without causing damage to the device.

Disclosed herein is a thermoplastic gel prepared from a composition comprising: a styrene triblock copolymer; a styrene diblock copolymer; an oil extender; and optionally an additive. The composition comprises greater than 21 wt % up to about 35 wt % of a combination of the styrene triblock copolymer and the styrene diblock copolymer. The thermoplastic gel exhibits a very low oil bleed out of less than about 5% after 1500 hours at 60° C. and 120 kPa.

Disclosed herein is a thermoplastic gel prepared from a composition comprising: a styrene triblock copolymer; a styrene diblock copolymer; an oil extender; and optionally an additive. The composition comprises greater than 21 wt % up to about 35 wt % of a combination of the styrene triblock copolymer and the styrene diblock copolymer. The thermoplastic gel exhibits a very low oil bleed out of less than about 5% after 1500 hours at 60° C. and 120 kPa.

A composite formulation for use in lightweight molded components includes an untreated low density filler, such as glass bubbles, a solvated polymer mixture, and polymer paste. In one embodiment the solvated polymer mixture is used to treat the low density filler to form a treated low density filler. The solvated polymer mixture many include a thermoplastic resin or a reactive resin and an additive package. The additive package may include a dispersing agent and a silane carrier composition.

A method of preparing a resin infused random fiber mat including the step of forming a liquid dispersion mat of polymeric resin and fiber on a porous substrate.