Abstract: Compositions for the immediate release of one or more cannabinoids, in which the compositions comprise a population of particles. Each particle may comprise the one or more cannabinoids and one or more intra-granule excipients. Alternatively, each particle may comprise the one or more cannabinoids and a porous bead core. The composition may be prepared by a method that involves combining the one or more cannabinoids with the one or more intra-granule excipients, and then granulating the combination, such as through fluid bed granulation, shear-induced wet granulation, or spray granulation. The composition may also be prepared by a method that involves mixing the one or more cannabinoids with a population of porous bead cores.

Abstract: Compositions for the immediate release, extended release, or sustained release of two or more active agents, in which the two or more active agents comprises at least one cannabinoid and at least one non-cannabinoid therapeutic agent. The compositions comprise a population of particles, in which each particles comprises the at least one cannabinoid, the at least one non-cannabinoid therapeutic agent, or a combination thereof.

Abstract: Compositions for the extended release of one or more cannabinoids, in which the compositions comprise a population of particles. Each particle may comprise the one or more cannabinoids, one or more drug-releasing agents, one or more surfactants, and a core. The core may comprise a porous bead. The one or more cannabinoids may comprise ?9-tetrahydrocannabinol, cannabidiol, or a combination thereof.

Abstract: Compositions for the extended release of one or more cannabinoids, in which the compositions comprise a population of particles. Each particle may comprise the one or more cannabinoids, one or more drug-releasing agents, and a core. The APIs may be a cannabinoid, such as cannabidiol or ?9-tetrahydrocannabinol. The core may comprise an inert material. The one or more cannabinoids may comprise ?9-tetrahydrocannabinol, cannabidiol, or a combination thereof.

Abstract: The disclosed embodiments provide systems and methods for transacting at a local financial service provider device using a mobile device. The system may include one or more processors configured to execute instructions to receive transaction data associated with a transaction request including a customer identifier received from a mobile device associated with the customer. Additionally, the processors may receive authentication data associated with the customer that may be provided by the customer operating the mobile device and without requiring the customer to input data directly at the local financial service provider device.

Abstract: The disclosed embodiments provide systems and methods for authenticating electronic transactions. A system for authenticating electronic transactions may include one or more memory devices storing instructions and one or more processors configured to receive transaction data associated with a transaction and further associated with a customer. The transaction data includes a customer identifier. The one or more processors may be configured to identify a customer account associated with the customer based on the customer identifier, and determine an authentication tier level associated with the transaction. The authentication tier level may reflect one or more levels of authentication required to authorize the transaction.

Abstract: A boron filled hybrid nanotube and a method for producing and rendering boron filled hybrid nanotubes suitable for applications are provided. A mixture of a boron containing nanowire producing compound and catalysts is prepared and ground for a predetermined time period. The ground mixture is subjected to a vapor deposition process including passing an inert gas over the ground mixture after adding a nanotube producing compound to the ground mixture or after passing a reactant gas on the ground mixture in a reactor at a configurable reaction temperature and a configurable reaction pressure for a configurable reaction time to produce the boron filled hybrid nanotubes with enhanced mechanical, thermal and electrical properties. Each boron filled hybrid nanotube includes one or more boron based nanowires embedded within one or more single walled or multi-walled nanotubes. The boron filled hybrid nanotubes are further purified and functionalized using acids, and/or bases, and/or surfactants.

Abstract: The disclosed embodiments provide systems and methods for transacting at a local financial service provider device using a mobile device. The system may include one or more processors configured to execute instructions to receive transaction data associated with a transaction request including a customer identifier received from a mobile device associated with the customer. Additionally, the processors may receive authentication data associated with the customer that may be provided by the customer operating the mobile device and without requiring the customer to input data directly at the local financial service provider device.

Abstract: A friction stir welding tool comprising a composite of a tungsten-rhenium alloy and hafnium carbide particles, wherein a crystallite size of the tungsten-rhenium alloy is no more than 100 nm, wherein the hafnium carbide particles are dispersed within the tungsten-rhenium alloy, a method of fabricating the friction stir welding tool, and a method of friction stir welding a metal joint using the tool. Various embodiments of the friction stir welding tool, the method of fabricating the tool, and the method of friction stir welding using the tool are provided.

Abstract: Polydiacetylenes (PDAs) and PDA/ZnO nanocomposites based on the monomers: 10,12-pentacosadiynoic acid (PCDA), 10,12-tricosadiynoic acid (TCDA) and 10,12-docosadiynedioic acid (DCDA) monomers are chromatic chemical sensing agents for selected organic liquids. Thermochromically reversible compositions include PCDA and nanosize ZnO having a particle size range less than 100 nm.

Abstract: A friction stir welding tool comprising a composite of a tungsten-rhenium alloy and hafnium carbide particles, wherein a crystallite size of the tungsten-rhenium alloy is no more than 100 nm, wherein the hafnium carbide particles are dispersed within the tungsten-rhenium alloy, a method of fabricating the friction stir welding tool, and a method of friction stir welding a metal joint using the tool. Various embodiments of the friction stir welding tool, the method of fabricating the tool, and the method of friction stir welding using the tool are provided.

Abstract: A friction stir welding tool comprising a composite of a tungsten-rhenium alloy and hafnium carbide particles, wherein a crystallite size of the tungsten-rhenium alloy is no more than 100 nm, wherein the hafnium carbide particles are dispersed within the tungsten-rhenium alloy, a method of fabricating the friction stir welding tool, and a method of friction stir welding a metal joint using the tool. Various embodiments of the friction stir welding tool, the method of fabricating the tool, and the method of friction stir welding using the tool are provided.

Abstract: A friction stir welding tool comprising a composite of a tungsten-rhenium alloy and hafnium carbide particles, wherein a crystallite size of the tungsten-rhenium alloy is no more than 100 nm, wherein the hafnium carbide particles are dispersed within the tungsten-rhenium alloy, a method of fabricating the friction stir welding tool, and a method of friction stir welding a metal joint using the tool. Various embodiments of the friction stir welding tool, the method of fabricating the tool, and the method of friction stir welding using the tool are provided.

Abstract: A friction stir welding tool comprising a composite of a tungsten-rhenium alloy and hafnium carbide particles, wherein a crystallite size of the tungsten-rhenium alloy is no more than 100 nm, wherein the hafnium carbide particles are dispersed within the tungsten-rhenium alloy, a method of fabricating the friction stir welding tool, and a method of friction stir welding a metal joint using the tool. Various embodiments of the friction stir welding tool, the method of fabricating the tool, and the method of friction stir welding using the tool are provided.

Abstract: A friction stir welding tool comprising a composite of a tungsten-rhenium alloy and hafnium carbide particles, wherein a crystallite size of the tungsten-rhenium alloy is no more than 100 nm, wherein the hafnium carbide particles are dispersed within the tungsten-rhenium alloy, a method of fabricating the friction stir welding tool, and a method of friction stir welding a metal joint using the tool. Various embodiments of the friction stir welding tool, the method of fabricating the tool, and the method of friction stir welding using the tool are provided.

Abstract: A friction stir welding tool comprising a composite of a tungsten-rhenium alloy and hafnium carbide particles, wherein a crystallite size of the tungsten-rhenium alloy is no more than 100 nm, wherein the hafnium carbide particles are dispersed within the tungsten-rhenium alloy, a method of fabricating the friction stir welding tool, and a method of friction stir welding a metal joint using the tool. Various embodiments of the friction stir welding tool, the method of fabricating the tool, and the method of friction stir welding using the tool are provided.

Abstract: The disclosed embodiments provide systems and methods for authenticating electronic transactions. A system for authenticating electronic transactions may include one or more memory devices storing instructions and one or more processors configured to receive transaction data associated with a transaction and further associated with a customer. The transaction data includes a customer identifier. The one or more processors may be configured to identify a customer account associated with the customer based on the customer identifier, and determine an authentication tier level associated with the transaction. The authentication tier level may reflect one or more levels of authentication required to authorize the transaction.

Abstract: The disclosed embodiments provide systems and methods for transacting at a local financial service provider device using a mobile device. The system may include one or more memory devices storing instructions and one or more processors configured to execute the instructions to receive transaction data associated with a transaction request received from a mobile device associated with a customer. The transaction data may include a customer identifier. Additionally, the instructions may cause the processor to receive authentication data associated with the customer. The authentication data may be provided by the customer operating the mobile device and without requiring the customer to input data directly at the local financial service provider device. The one or more processors may further determine whether the received authentication data authenticates the transaction, authorize the transaction, and provide an indication to the local financial service provider device to perform the transaction.

Abstract: An installation and a method for applying coatings to automotive enlarged pieces are disclosed. The installation comprises an elevated conveyor, wherein the enlarged pieces are vertically hanged up; a formation section of an anticorrosive coating on the surface of the enlarged piece; a drying section of the enlarged piece on which the coating has been formed; a masking section wherein some portions of the piece are covered; a paint application section wherein the enlarged piece is coated with paint; an unmasking section of the piece in which the previous masked portions are uncovered; wherein the elevated conveyor continuous and vertically conveys the enlarged pieces along each of the sections in the installation.

Abstract: Novel TCDA/ZnO compositions in which the ZnO particles have an average particle size less than 100 nm are disclosed. Reversible thermochromatic sensors employing the TCDA nanocomposites and methods of printing TCDA/ZnO nanocomposite thin films forming the reversible thermochromatic sensors using inkjet printing techniques are also disclosed.