Abstract: Systems and methods are configured to receive an indication that an anchor is to be positioned at a first location on a webpage. An interaction rule associated with the anchor is received, comprising a rule that content is to be displayed in response to the webpage being scrolled to a first position. A preview of the webpage is generated with the anchor at the first location in conjunction with the previewed webpage. Automatically generated code is configured to cause the anchor to be visible at the first location of the webpage when accessed by a user browser. In response to activation of a publication control, the code is embedded in the webpage, wherein in response to a first user browser of a first user device accessing the webpage, and the first user scrolling the webpage to the first position, the content specified by the content specification is rendered.

Abstract: An ice making assembly includes an ice mold and a pump assembly for urging an ice-building spray into the ice mold to form an ice billet. A controller operates the pump assembly to provide the ice-building spray at a first flow rate until the ice billet reaches a predetermined thickness and then operates the pump assembly to provide the ice-building spray at a second flow rate that is less than the first flow rate.

Abstract: An example of a pixel module comprises a module substrate having light emitters disposed on a light-emitter surface and a controller disposed on a controller surface opposed to the light-emitter surface. At least one module electrode is electrically connected to the controller and at least one module electrode is electrically connected to each light emitter. An example of a pixel-module wafer comprises a module source wafer comprising sacrificial portions and module anchors, each sacrificial portion laterally separated from an adjacent sacrificial portion by a module anchor and a pixel module disposed entirely over each sacrificial portion. At least one module tether physically connects each of the pixel modules to at least one of the module anchors. An example of a pixel-module display comprises a display substrate, pixel modules disposed on the display substrate and display electrodes disposed on the display substrate, each display electrode electrically connected to a module electrode.

Abstract: Provided are improved methods for making immune effector cells, as well as improved immune effector cells generated using the methods. The improved T cells have improved respiratory capacity and mitochondrial mass. Adoptive T cell immunotherapies using such cells demonstrate improved survival, expansion, and persistence in vivo.

Abstract: This invention relates to a method of forming crystals of chemical molecules. The methods are effective even when only very small amounts of a compound are available and can be used to explore the experimental crystallisation space including screening for optimal crystallisation conditions such as for polymorphic phases, salts, solvates and co-crystals of chemical molecules and to provide single crystals for structural determination of unknown molecules by single crystal X-ray crystallography.

Abstract: The present disclosure relates to an aerosol delivery component comprising a tank defining a storage chamber for storing a first liquid aerosol precursor and an air bleed channel extending from an outside channel opening outside of the tank to an inside channel opening within the tank. The air bleed channel comprises an s-bend channel for retaining the first liquid aerosol precursor in an inverted orientation of the component. In this way, the air bleed channel may have a volume greater than 1% e.g. greater than 10% of the volume of the storage chamber.

Abstract: The present disclosure relates to an aerosol delivery component (e.g., a smoking substitute component) comprising: a first aerosolisation portion (which may be a passive aerosolisation portion) configured to generate a first aerosol from a first aerosol precursor; and a second aerosolisation portion (which may be an active aerosolisation portion) configured to generate a second aerosol from a second aerosol precursor. The component further comprises a mouthpiece nozzle rotatable between a first position and a second position, wherein in the first position the component is configured to supply the first aerosol and the second aerosol through the mouthpiece nozzle, and in the second position the component is configured to supply only the second aerosol through the mouthpiece nozzle.

Abstract: A method of neural network-based pattern analysis for real-time threat detection according to an embodiment includes receiving a real-time request for a system resource from a user of the system, determining a user identifier associated with the user of the system, retrieving a set of recent requests associated with the user identifier from a short-term buffer, analyzing, using machine learning, the real-time request based on the set of recent requests and a neural network model to determine whether the real-time request is suspicious, and flagging the real-time request as a suspicious request in response to a determination that the real-time request is suspicious.

Abstract: The present disclosure describes an aerosol delivery component comprising a tank defining a storage chamber for storing a first liquid aerosol precursor and an air bleed channel extending from an outside channel opening outside of the tank to an inside channel opening within the tank. The air bleed channel has a volume between 1% and 20%, e.g. greater than 10% of the volume of the storage chamber. The air bleed channel may comprise an s-bend channel for retaining the first liquid aerosol precursor in an inverted orientation of the component.

Abstract: A printed structure includes a destination substrate comprising two or more contact pads disposed on or in a surface of the destination substrate, a component disposed on the surface, and two or more electrically conductive connection posts. Each of the connection posts extends from a common side of the component. Each of the connection posts is in electrical and physical contact with one of the contact pads. The component is tilted with respect to the surface of the destination substrate. Each of the connection posts has a flat distal surface.

Abstract: An example of a pixel module comprises a module substrate having light emitters disposed on a light-emitter surface and a controller disposed on a controller surface opposed to the light-emitter surface. At least one module electrode is electrically connected to the controller and at least one module electrode is electrically connected to each light emitter. An example of a pixel-module wafer comprises a module source wafer comprising sacrificial portions and module anchors, each sacrificial portion laterally separated from an adjacent sacrificial portion by a module anchor and a pixel module disposed entirely over each sacrificial portion. At least one module tether physically connects each of the pixel modules to at least one of the module anchors. An example of a pixel-module display comprises a display substrate, pixel modules disposed on the display substrate and display electrodes disposed on the display substrate, each display electrode electrically connected to a module electrode.

Abstract: An example of a pixel module comprises a module substrate having light emitters disposed on a light-emitter surface and a controller disposed on a controller surface opposed to the light-emitter surface. At least one module electrode is electrically connected to the controller and at least one module electrode is electrically connected to each light emitter. An example of a pixel-module wafer comprises a module source wafer comprising sacrificial portions and module anchors, each sacrificial portion laterally separated from an adjacent sacrificial portion by a module anchor and a pixel module disposed entirely over each sacrificial portion. At least one module tether physically connects each of the pixel modules to at least one of the module anchors. An example of a pixel-module display comprises a display substrate, pixel modules disposed on the display substrate and display electrodes disposed on the display substrate, each display electrode electrically connected to a module electrode.

Abstract: This invention relates to a method of forming crystals of chemical molecules. The methods are effective even when only very small amounts of a compound are available and can be used to explore the experimental crystallisation space including screening for optimal crystallisation conditions such as for polymorphic phases, salts, solvates and co-crystals of chemical molecules and to provide single crystals for structural determination of unknown molecules by single crystal X-ray crystallography.

Abstract: An aerosol delivery device comprises: a storage for storing an aerosol precursor; an aerosol generator comprising an aerosol generator portion configured to receive the aerosol precursor from the storage; an air flow passage configured to direct air past the aerosol generator portion to pick up the aerosol precursor from the aerosol generator portion to form an aerosol; and a barrier arrangement for inhibiting evaporation of aerosol precursor when the barrier arrangement is closed, the barrier arrangement being openable to permit generation of aerosol.

Abstract: A method of neural network-based pattern analysis for real-time threat detection according to an embodiment includes receiving a real-time request for a system resource from a user of the system, determining a user identifier associated with the user of the system, retrieving a set of recent requests associated with the user identifier from a short-term buffer, analyzing, using machine learning, the real-time request based on the set of recent requests and a neural network model to determine whether the real-time request is suspicious, and flagging the real-time request as a suspicious request in response to a determination that the real-time request is suspicious.

Abstract: A printed structure includes a destination substrate comprising two or more contact pads disposed on or in a surface of the destination substrate, a component disposed on the surface, and two or more electrically conductive connection posts. Each of the connection posts extends from a common side of the component. Each of the connection posts is in electrical and physical contact with one of the contact pads. The component is tilted with respect to the surface of the destination substrate. Each of the connection posts has a flat distal surface.

Abstract: A printed structure includes a destination substrate comprising two or more contact pads disposed on or in a surface of the destination substrate, a component disposed on the surface, and two or more electrically conductive connection posts. Each of the connection posts extends from a common side of the component. Each of the connection posts is in electrical and physical contact with one of the contact pads. The component is tilted with respect to the surface of the destination substrate. Each of the connection posts has a flat distal surface.

Abstract: A method of micro-transfer printing comprises providing a component source wafer and components disposed in, on, or over the component source wafer. A destination substrate and a stamp for transferring the components from the component source wafer to the destination substrate is provided. The component source wafer has an attribute or structure that varies across the component source wafer that affects the structure, operation, appearance, or performance of the components. A first array of components is transferred from the component source wafer to the destination substrate with a first orientation. A second array of components is transferred from the component source wafer to the destination substrate with a second orientation different from the first orientation. Components can be transferred by micro-transfer printing and different orientations can be a different rotation, overlap, interlacing, or offset.

Abstract: An aerosol delivery device comprises: an aerosol generator portion configured to receive a first aerosol precursor; an air flow passage configured to direct air past the aerosol generator portion to pick up the first aerosol precursor from the aerosol generator portion to form a first aerosol; and a support for maintaining the aerosol generator portion in a substantially central position in the air flow passage.

Abstract: An example of a pixel module comprises a module substrate having light emitters disposed on a light-emitter surface and a controller disposed on a controller surface opposed to the light-emitter surface. At least one module electrode is electrically connected to the controller and at least one module electrode is electrically connected to each light emitter. An example of a pixel-module wafer comprises a module source wafer comprising sacrificial portions and module anchors, each sacrificial portion laterally separated from an adjacent sacrificial portion by a module anchor and a pixel module disposed entirely over each sacrificial portion. At least one module tether physically connects each of the pixel modules to at least one of the module anchors. An example of a pixel-module display comprises a display substrate, pixel modules disposed on the display substrate and display electrodes disposed on the display substrate, each display electrode electrically connected to a module electrode.