Abstract: Disclosed are a fluorine-silicon-containing polyphosphate ester and method for preparation thereof, having a chemical structural formula of: wherein R 1 is R 2 is n=10˜100. The fluorine-silicon-containing polyphosphate ester of the present invention uses silicon phosphorus and fluorine for improving flame retardancy. Phosphorus catalyzes the system to form a phosphorus-rich carbon layer, performing a protective-layer function and thereby preventing further breakdown of the epoxy resin. The silicon-containing epoxy resin forms a silica-containing carbon layer during the process of combustion, strengthening the carbon-layer structure and further improving the protective function of the carbon-layer. The introduction of elemental fluorine improves the thermal stability of the epoxy resin, thereby improving the flame retardancy performance of the system.

Abstract: The presently disclosed subject matter provides antigen-binding proteins (e.g., chimeric antigen receptors) and antibodies or antigen-binding portions thereof that bind to a Foxp3 peptide/MHC molecule complex. Such antibodies, fusion proteins and conjugates thereof are useful for inhibiting regulatory T cells and treating cancers.

Abstract: A display panel and a method for forming a micro component support are provided. The method for forming a micro component support includes the following steps. First, a first sacrificial layer is formed on a carrier substrate, where the first sacrificial layer includes a plurality of first openings, and the first openings expose the carrier substrate. Then, a first support layer is formed on the first sacrificial layer and in the first openings. Next, a second sacrificial layer is formed on the first sacrificial layer and the first support layer, where the second sacrificial layer includes a plurality of second openings, and the second openings expose the first support layer. Then, a second support layer is formed on the second sacrificial layer and in the second openings. Next, at least one micro component is formed on the second support layer. Finally, the first sacrificial layer and the second sacrificial layer are removed.

Abstract: A display panel and a method for forming a micro component support are provided. The method for forming a micro component support includes the following steps. First, a first sacrificial layer is formed on a carrier substrate, where the first sacrificial layer includes a plurality of first openings, and the first openings expose the carrier substrate. Then, a first support layer is formed on the first sacrificial layer and in the first openings. Next, a second sacrificial layer is formed on the first sacrificial layer and the first support layer, where the second sacrificial layer includes a plurality of second openings, and the second openings expose the first support layer. Then, a second support layer is formed on the second sacrificial layer and in the second openings. Next, at least one micro component is formed on the second support layer. Finally, the first sacrificial layer and the second sacrificial layer are removed.

Abstract: Semiconductor devices and methods of manufacture thereof are disclosed. In some embodiments, a semiconductor device includes a first semiconductor chip including a first substrate and a first conductive feature formed over the first substrate, and a second semiconductor chip bonded to the first semiconductor chip. The second semiconductor chip includes a second substrate and a second conductive feature formed over the second substrate. A conductive plug is disposed through the first conductive feature and is coupled to the second conductive feature. The conductive plug includes a first portion disposed over the first conductive feature, the first portion having a first width, and a second portion disposed beneath or within the first conductive feature. The second portion has a second width. The first width is greater than the second width.

Abstract: Disclosed are a preparation method of a phosphorus-nitrogen-silicon-containing polymeric flame retardant and application thereof. The chemical structure of the polymeric flame retardant is wherein m=10˜100, n=10˜100. The synergistic flame-retardant effect between the phosphorus, nitrogen, and silicon in the phosphorus-nitrogen-silicon-containing polymeric flame retardant increases the flame retardancy of epoxy resin.

Abstract: The present invention discloses an antenna tuning system and method thereof. The method comprises the following steps: choosing a parasitic antenna that combined with a main antenna, the strongest received signal strength indicator of a target station is detected; controlling the selected parasitic antenna that combined with a main antenna, to generate a scattering resonance through turning on or off a switch unit; and controlling a diffraction radiation pattern between the main antenna and the selected parasitic antenna through adjusting a load of a designed circuit.

Abstract: The present disclosure provides a device discovering method and apparatus, a device and a computer storage medium, wherein the method comprises: receiving a user instruction instructing to discover devices; if it is found from search that an inter-network connection device exists in a local network and a current device-discovering process has not yet ended, sending first prompt information which includes a manner of guiding the user to trigger the inter-network connection device to be discovered. The manners provided by the present disclosure can guide the manner of triggering the inter-network connection device to be discovered during the device-discovering process, so that the user can conveniently and simply and smoothly trigger the inter-network connection device to be discovered according to the prompt information.

Abstract: A service access method and an apparatus. A secure transmission proxy apparatus performs verification and management on service permission, which reduces networking costs of a service server side and workload of reconstruction and maintenance of the service server side, and enhances communication security. A solution includes: decrypting, by a secure transmission proxy apparatus, a service request message sent by a client, where the service request message includes a service type; performing verification on service permission of a decrypted service request message according to the service type; performing protocol conversion on the decrypted service request message if the service permission verification succeeds; and sending a service request message obtained after the protocol conversion to a service server side, so that the service server side executes a corresponding service according to the service request message obtained after the protocol conversion.

Abstract: A display panel and a method for forming a micro component support are provided. The method for forming a micro component support includes the following steps. First, a first sacrificial layer is formed on a carrier substrate, where the first sacrificial layer includes a plurality of first openings, and the first openings expose the carrier substrate. Then, a first support layer is formed on the first sacrificial layer and in the first openings. Next, a second sacrificial layer is formed on the first sacrificial layer and the first support layer, where the second sacrificial layer includes a plurality of second openings, and the second openings expose the first support layer. Then, a second support layer is formed on the second sacrificial layer and in the second openings. Next, at least one micro component is formed on the second support layer. Finally, the first sacrificial layer and the second sacrificial layer are removed.

Abstract: M-CSF-specific RX1-based or RX-1 derived antibodies are provided, along with pharmaceutical compositions containing such antibody, kits containing a pharmaceutical composition, and methods of preventing and treating bone loss in a subject afflicted with an osteolytic disease.

Abstract: A computing system disposed within a computational instance of a remote network management platform remotely manages a managed network that uses computational resources of a third-party network to deploy operations. The computing system may obtain a utilization policy that identifies (i) particular computational resources of the third-party network used to deploy a particular operation and (ii) a time period during which the particular computational resources can be used. The computing system may be configured to: obtain a utilization report that identifies (i) the computational resources used to deploy the operations and (ii) times at which the computational resources were used; determine that the particular computational resources deployed the particular operation outside the time period identified by the utilization policy; generate a report indicating that the particular computational resources deployed the particular operation outside the time period; and provide the report to the managed network.

Abstract: The present application provides antibody-TCR chimeric constructs comprising an antibody moiety that specifically binds to a target antigen fused to a TCRM capable of recruiting at least one TCR-associated signaling module. Also provided are methods of making and using these constructs.

Abstract: A semiconductor device structure is provided. The semiconductor device structure includes a first semiconductor die, and a second semiconductor die bonded on the first semiconductor die. A through-substrate via penetrates through a semiconductor substrate of the second semiconductor die. A passivation layer is disposed between the first semiconductor die and the second semiconductor die, wherein the passivation layer is directly bonded to the semiconductor substrate of the second semiconductor die. A conductive feature passes through the passivation layer, wherein the conductive feature is bonded to the through-substrate via. A barrier layer is disposed between the conductive feature and the passivation layer. The barrier layer covers sidewalls of the conductive feature and separates the surface of the conductive feature from a nearest neighboring surface of the first or second semiconductor die.

Abstract: An image sensor device includes a pixel array, a control circuit, an interconnect structure, and a conductive layer. The pixel array is disposed on a device substrate within a pixel region. The control circuit disposed on the device substrate within a circuit region, the control circuit being adjacent and electrically coupled to the pixel array. The interconnect structure overlies and electrically connects the control circuit and the pixel array. The interconnect structure includes interconnect metal layers separated from each other by inter-metal dielectric layers and vias that electrically connect between metal traces of the interconnect layers. The conductive layer disposed over the interconnect structure and electrically connected to the interconnect structure by an upper via disposed through an upper inter-metal dielectric layer therebetween. The conductive layer extends laterally within outermost edges of the interconnect structure and within the pixel region and the circuit region.

Abstract: An image-sensor device includes a substrate including a pixel region and a logic region. A logic transistor is disposed in the logic region and is surrounded by a logic isolation feature. A radiation-sensing region is disposed in the pixel region of the substrate. An epitaxial pixel isolation feature is disposed in the pixel region and surrounds the radiation-sensing region. A doped region with a same doping polarity as the radiation-sensing region is located between a bottom of the radiation-sensing region and the back surface of the substrate. The epitaxial pixel isolation feature is in direct contact with the doped region. The doped region extends continuously under the pixel region and the logic region. The epitaxial pixel isolation feature is in direct contact with the doped region, and the logic isolation feature is spaced apart from the doped region.

Abstract: Disclosed embodiments relate to remote atomic operations (RAO) in multi-socket systems. In one example, a method, performed by a cache control circuit of a requester socket, includes: receiving the RAO instruction from the requester CPU core, determining a home agent in a home socket for the addressed cache line, providing a request for ownership (RFO) of the addressed cache line to the home agent, waiting for the home agent to either invalidate and retrieve a latest copy of the addressed cache line from a cache, or to fetch the addressed cache line from memory, receiving an acknowledgement and the addressed cache line, executing the RAO instruction on the received cache line atomically, subsequently receiving multiple local RAO instructions to the addressed cache line from one or more requester CPU cores, and executing the multiple local RAO instructions on the received cache line independently of the home agent.

Abstract: A method according to one embodiment includes importing a plurality of resources associated with an entity, receiving, from the entity, a request for an application that performs predetermined functionality, creating a functionality definition, utilizing the request, determining, from the plurality of resources associated with the entity, one or more necessary resources for implementing the functionality definition, constructing the application that performs the predetermined functionality, utilizing the one or more necessary resources, and implementing the application in an environment of the entity.

Abstract: A search continuation device and its operations include, for example, performing a first electronic search based on first search criteria. The first electronic search generates first search results. The operations can further include electronically storing search data associated with the first electronic search (e.g., in a user account). The operations can further include performing a second electronic search with second search criteria substantially similar to the first search criteria. The second electronic search generates second search results. The operations can further include, retrieving the search data (e.g., from the user account), and providing, based on the search data, one or more indicators for presentation with the second search results. The one or more indicators specify continued search information, such as a degree to which content contained within an item of the first search results was previously accessed or a difference between the first search results and the second search results.

Abstract: Buffered interconnects for highly scalable on-die fabric and associated methods and apparatus. A plurality of nodes on a die are interconnected via an on-die fabric. The nodes and fabric are configured to implement forwarding of credited messages from source nodes to destination nodes using forwarding paths partitioned into a plurality of segments, wherein separate credit loops are implemented for each segment. Under one fabric configuration implementing an approach called multi-level crediting, the nodes are configured in a two-dimensional grid and messages are forwarded using vertical and horizontal segments, wherein a first segment is between a source node and a turn node in the same row or column and the second segment is between the turn node and a destination node. Under another approach called buffered mesh, buffering and credit management facilities are provided at each node and adjacent nodes are configured to implement credit loops for forwarding messages between the nodes.