Abstract: This invention relates to particulate electroactive materials comprising a plurality of composite particles, wherein the composite particles comprise: (a) a porous carbon framework including micropores and optional mesopores having a total volume of at least 0.7 cm3/g and up to 2 cm3/g, wherein at least half of the total micropore and mesopore volume is in the form of pores having a diameter of no more than 1.5 nm; and (b) silicon located within the micropores and optional mesopores of the porous carbon framework in a defined amount relative to the total volume of the micropores and optional mesopores.

Abstract: A multi-player smartphone video gaming system using a smartphone with a video game controller and a video game projector connected to an input-output port of the smartphone with wired connections. Earphones and a microphone are connected to an audio in/out port of the smartphone. A host server provides a multi-player video game playing application and video games for the smartphone through an Internet interface on the smartphone. The host server provides a platform for multi-player video gaming over the Internet through the internet interface of the smartphone. The smartphone, controller, and video game projector occupy less than 0.5 cubic feet of space. The projected video game display can be displayed up to 170 inches wide.

Abstract: A multi-player smartphone video gaming system having a smartphone, a video game controller connected to the smartphone, a video game projector connected to the smartphone, wherein the video game projector is a 3D projector or a virtual hologram projector and wherein the virtual hologram projector is a virtual holographic fan or a pyramidal holographic display or a Z-shaped holographic display. Earphones and a microphone are connected to the smartphone. A video camera monitors a user's movements during video gaming and provides facial recognition of the user. A host server provides the smartphone, through a network interface, a multi-player video game playing application, video games, and a platform for multiplayer video gaming over a network.

Abstract: A mounting enclosure assembly is configured to mount electronic components onto a DIN rail. The mounting enclosure assembly includes a mounting bracket including a body having at least one elongate slot configured to receive an edge of the electronic component therein. The mounting enclosure assembly further includes a heat sink secured to the mounting bracket. The heat sink includes a mounting configuration configured to secure the heat sink and the mounting bracket to the DIN rail. The mounting enclosure assembly further includes a thermal bonding material disposed within the slot to secure the electronic component to the body of the mounting bracket within the slot. Other embodiments of the mounting enclosure assembly are further disclosed.

Abstract: This invention relates to particulate electroactive materials comprising a plurality of composite particles, wherein the composite particles comprise: (a) a porous carbon framework including micropores and optional mesopores having a combined total volume of at least 0.7 cm3/g, wherein at least half of the micropore/mesopore volume is in the form of pores having a diameter of no more than 1.5 nm; and (b) an electroactive material located within the micropores and/or mesopores of the porous carbon framework. The D90 particle diameter of the composite particles is no more than 10 nm.

Abstract: A method for determining the thickness of a plurality of coating layers. The method comprises the steps of performing a calibration analysis on calibration data to determine initial values and search limits of optical parameters of the plurality of coating layers, irradiating the plurality of layers with a pulse of THz radiation in the range from 0.01 THz to 10 THz, detecting the reflected radiation to produce a sample response derived from the reflected radiation, producing a synthesized waveform using the optical parameters and predetermined initial thicknesses of the layers, varying the thicknesses and the optical parameters within the search limits to minimize the error measured between the sample response and the synthesized waveform, and outputting the thicknesses of the layers.

Abstract: A method for determining the thickness of a plurality of coating layers, the method comprising: performing a calibration analysis on calibration data to determine initial values and search limits of optical parameters of said plurality of coating layers, irradiating the said plurality of layers with a pulse of THz radiation, said pulse comprising a plurality of frequencies in the range from 0.01 THz to 10 THz; detecting the reflected radiation to produce a sample response said sample response being derived from the reflected radiation; producing a synthesised waveform using the optical parameters and predetermined initial thicknesses of said layers; and varying said thicknesses and varying said optical parameters within the said search limits to minimise the error measured between the sample response and the synthesised waveform; and outputting the thicknesses of the layers.

Abstract: A method for league, tournament, and competition video game playing implemented through an application from an application provider's server and downloaded onto a game player's smartphone. A player selects on the smartphone to play a game over the internet. The player is placed in a lobby, selects a game, contest, and platform and uses the smartphone for audio/visual communication during game play. Players are matched with players of similar skills based on skill measurements. Eliminated players are returned to the lobby for continuous play. Player identity is validated, and player cheating is detected. The application provides on the player's smart phone accounting, social media, lobby, recent matches and live matches functions. Winners are provided payouts. Eliminated players may have continuous play.

Abstract: This invention relates to particulate electroactive materials comprising a plurality of composite particles, wherein the composite particles comprise: (a) a porous carbon framework including micropores and optional mesopores having a total volume of at least 0.7 cm3/g and up to 2 cm3/g, wherein at least half of the total micropore and mesopore volume is in the form of pores having a diameter of no more than 1.5 nm; and (b) silicon located within the micropores and optional mesopores of the porous carbon framework in a defined amount relative to the total volume of the micropores and optional mesopores.

Abstract: This invention relates to particulate electroactive materials comprising a plurality of composite particles, wherein the composite particles comprise: (a) a porous carbon framework including micropores and optional mesopores having a total volume of at least 0.7 cm3/g and up to 2 cm3/g, wherein at least half of the total micropore and mesopore volume is in the form of pores having a diameter of no more than 1.5 nm; and (b) silicon located within the micropores and optional mesopores of the porous carbon framework in a defined amount relative to the total volume of the micropores and optional mesopores.

Abstract: This invention relates to particulate electroactive materials comprising a plurality of composite particles, wherein the composite particles comprise: (a) a porous carbon framework including micropores and optional mesopores having a combined total volume of at least 0.7 cm3/g, wherein at least half of the micropore/mesopore volume is in the form of pores having a diameter of no more than 1.5 nm; and (b) an electroactive material located within the micropores and/or mesopores of the porous carbon framework. The D90 particle diameter of the composite particles is no more than 10 nm.

Abstract: This invention relates to particulate electroactive materials consisting of a plurality of composite particles, wherein the composite particles comprise a plurality of silicon nanoparticles dispersed within a conductive carbon matrix. The particulate material comprises 40 to 65 wt % silicon, at least 6 wt % and less than 20% oxygen, and has a weight ratio of the total amount of oxygen and nitrogen to silicon in the range of from 0.1 to 0.45 and a weight ratio of carbon to silicon in the range of from 0.1 to 1. The particulate electroactive materials are useful as an active component of an anode in a metal ion battery.

Abstract: A bar composition comprising: a) 10%-60% synthetic (non-soap) surfactant; b) 0%-50% fatty acid and soap wherein total fatty acid soap is less than 60% of total synthetic surfactant; c) 6.8%-54% water-soluble structurant, selected from •polyalkylene oxides having MW 1,500-10,000, •PEO-PPO blockcopolymers, wherein the water soluble structurant has a melting point of 40-100° C. and further comprises polyalkylene oxides having MW 50,000-500,000, 1-5 wt %; d) 0.1%-4.8% alkali metal isethionate; e) 2.7%-13.5% water, wherein the sum of water, alkali metal isethionate and water-soluble structurant is 10%-60%, wherein based on the total amount of water, alkali metal isethionate and said water-soluble structurant, •water is present 4-27%, alkali metal isethionate is present less than 8%, water-soluble structurant is present 68-90%. Use of the composition for eliminating efflorescence.

Abstract: Systems and methods are provided for processing derivative product orders at an exchange. Traders provide derivative product order risk data to the exchange. The order risk data may include maximum delta, gamma and/or vega utilization values for derivative product contracts based on the same underlying product. Before executing a trade, a match system analyzes the trader's current utilization state and the utilization that would result after the trade. The match system may then execute all or a portion of the trade.

Abstract: Systems and methods are provided for processing derivative product orders at an exchange. Traders provide derivative product order risk data to the exchange. The order risk data may include maximum delta, gamma and/or vega utilization values for derivative product contracts based on the same underlying product. Before executing a trade, a match system analyzes the trader's current utilization state and the utilization that would result after the trade. The match system may then execute all or a portion of the trade.

Abstract: Systems and methods are provided for processing derivative product orders at an exchange. Traders provide derivative product order risk data to the exchange. The order risk data may include maximum delta, gamma and/or vega utilization values for derivative product contracts based on the same underlying product. Before executing a trade, a match system analyzes the trader's current utilization state and the utilization that would result after the trade. The match system may then execute all or a portion of the trade.

Abstract: A photoelectric conversion device includes: a wavelength converting region that absorbs ambient light to generate electrons and holes, and recombines the generated electrons and holes to generate monochromatic light; and a photoelectric conversion region that has a p-n junction or p-i-n junction, absorbs the monochromatic light generated in the wavelength converting region to generate electrons and holes, and separates and moves the electrons and holes generated by absorption of the monochromatic light. The wavelength converting region includes: a carrier generating region that generates the electrons and holes; a light emitting region that generates the monochromatic light; and a carrier selective transfer region that is disposed between the carrier generating region and the light emitting region and that, of the electrons and holes generated in the carrier generating region, moves those electrons and holes having specific energies difference there between to the light emitting region.

Abstract: A system mitigates the effects of a market spike caused by the triggering and the election of a conditional order in an automated matching system. The system includes evaluation logic, delay logic, pricing logic and timing logic. The evaluation logic monitors conditional orders submitted to a trading engine and is configured to compare a price of an order to a first predefined price range. The delay logic delays matching of the orders submitted to the trading engine when the price of the orders lie outside of the first predefined price range. The pricing logic derives an opening price to be used by the trading engine. The timing logic measures a time interval used to delay a matching of the orders until the opening price is within a predefined price range up to a maximum delay time set by a control center. A method of mitigating the effect of a market spike caused by the triggering and the election of a conditional order includes monitoring conditional orders submitted to the trading engine.

Abstract: Systems and methods are provided for processing derivative product orders at an exchange. Traders provide derivative product order risk data to the exchange. The order risk data may include maximum delta, gamma and/or vega utilization values for derivative product contracts based on the same underlying product. Before executing a trade, a match system analyzes the trader's current utilization state and the utilization that would result after the trade. The match system may then execute all or a portion of the trade.

Abstract: A system mitigates the effects of a market spike caused by the triggering and the election of a conditional order in an automated matching system. Conditional orders submitted to a trading engine are evaluated to compare a price of an order to a predetermined price range. Matching of the orders may be delayed when the price of the orders lies outside of the predetermined price range. An opening price to be used by the trading engine is derived and a time interval is used to delay a matching of the orders until the opening price is within a predetermined price range up to a maximum delay time set by a control center. Implied spreads are also removed until other instruments within a trading unit are verified open.