Abstract: Provided is a laminate battery in which a short circuit between a negative electrode active material and a positive electrode due to expansion of the negative electrode active material during discharging is prevented. A laminate battery includes a battery case that serves as an outer case. The laminate battery includes an inner case within a battery case 11, and the inner case is formed of a positive electrode storage case and a separator. An inside of the inner case serves as a positive electrode storage portion that stores a positive electrode. An outside of the inner case serves as a negative electrode storage portion that stores a negative electrode. The negative electrode uses a particulate negative electrode active material (e.g., zinc or zinc oxide).

Abstract: Disclosed herein is a compound of formula (I), or a pharmaceutically acceptable salt thereof (I). Also disclosed herein are uses of the compounds disclosed herein in the potential treatment or prevention of an IDO-associated disease or disorder. Also disclosed herein are compositions comprising a compound disclosed herein. Further disclosed herein are uses of the compositions in the potential treatment or prevention of an IDO-associated disease or disorder.

Abstract: A device includes one or more processors configured to: receive a representation element; and parse an attribute in the representation element, wherein the attribute, when present, specifies a set of media content components that are contained in the representation element as a list of track identifier values, and the attribute is represented as a list of unsigned integers.

Abstract: A related information providing method for providing related information comprises, controlling an image processing device, and executing a job pertaining to image processing that performs at least one of processing that reads a document and outputs or stores image data, or processing that loads print data and prints or stores image data; causing a user to select whether or not performing a search is permitted using extracted information, which is obtained by extracting information about at least one of a character or an image from image data of the document or the print data; extracting the extracted information from the image data when a search using the extracted information is permitted; searching a database stored in a data storage device for related information that relates to the extracted information; providing the user with the related information; and registering the extracted information and the image data in the database.

Abstract: Antibodies that bind the apple 3 domain of human coagulation Factor XI and inhibit activation of FXI by coagulation factor XIIa as well as activation of FIX by FXIa are described.

Abstract: The provided method of manufacturing a display device includes a nanoparticle layer forming step and a bonding step. The nanoparticle layer forming step includes forming a nanoparticle layer including a stack of nanoparticles on either one or both of a topmost face of a first substrate including first electrodes, the first electrodes being provided on said topmost face, and a topmost face of a second substrate including a second electrode, the second electrode being provided on said topmost face. The bonding step includes bonding the first substrate and the second substrate together via the nanoparticle layer in such a manner that the first electrodes face the second electrode.

Abstract: A method performed by a user equipment (UE) is provided. In the method, at least one of a first configuration associated with a first operation of switching a search space set group and a second configuration associated with a second operation of skipping a physical downlink control channel monitoring are received. Downlink control information comprising a specific field associated with at least one of the first configuration and the second configuration is also received. When the first and second configurations are received, the first operation is performed based on a value in the specific field and the first configuration when the value in the specific field is one of a first set of values, and the second operation is performed based on the value in the specific field and the second configuration when the value in the specific field is one of a second set of values.

Abstract: A light-emitting device includes a light-emitting layer that includes, in each of a plurality of pixels: a light-emitting region in which a drive current flows between a first electrode and a second electrode; and a non-light-emitting region in which no drive current flows between the first electrode and the second electrode. The light-emitting region is divided into a plurality of subregions by a non-light-emitting region in a plan view.

Abstract: A terminal apparatus detects a first DCI format including first allocation information for identifying a time resource and the number of repetition transmissions that are used to transmit a PUSCH corresponding to a first TB, detects a second DCI format including second allocation information indicating reception of a downlink signal, identifies the time resource for transmitting the PUSCH, based on the first allocation information, and cancels transmission of a first PUSCH corresponding to any one of the repetition transmissions of the PUSCH in a case that the first allocation information indicates that the first PUSCH is to be transmitted in a first symbol set and that the second allocation information indicates that the downlink signal is to be received in a second symbol set and that at least one symbol in the first symbol set is a symbol included in the second symbol set.

Abstract: Terminal device receives a first PDCCH triggering Type-3 HARQ-ACK codebook and not scheduling a PDSCH; transmits a PUCCH indicated by the PDCCH; wherein in a case that the PDCCH does not indicate a SPS release, a processing time from the PDCCH to the PUCCH is set to a first value, and in a case that the PDCCH indicates a SPS release, the processing time is set to a second value that is larger than the first value.

Abstract: A photoelectric conversion panel includes a TFT, a photodiode, a first organic film formed on an upper layer from the photodiode, a bias line formed on an upper layer from the first organic film, a data line separated from the bias line, a second organic film covering the first organic film, the bias line, and the data line, and a first inorganic insulating film. Part of the second organic film is disposed between the bias line and the data line. The first inorganic insulating film covers the second organic film.

Abstract: A surface-processed structure includes a plurality of blocks that are three-dimensional objects arranged on a target surface. The plurality of blocks are spaced apart from each other and are arranged side by side in a second direction. Each of the plurality of blocks includes a top face including a plurality of fine grooves. The plurality of fine grooves are spaced apart from each other, are arranged side by side in the second direction, and extend from upstream to downstream in a first direction. A width of each of the plurality of fine grooves in the second direction is less than a width of a block clearance in the second direction. Both end portions of the top face in the second direction are located above bottoms of the plurality of fine grooves in a cross section of the block extending along a plane perpendicular to the first direction.

Abstract: A light-emitting element includes: a cathode; an anode; a light-emitting layer provided between the cathode and the anode and containing quantum dots; an electron-transport layer provided between the light-emitting layer and the cathode; and a hole-transport layer provided between the light-emitting layer and the anode. The light-emitting layer includes a first light-emitting layer containing first quantum dots to which first ligands are coordinated, and further includes a second light-emitting layer provided closer to the electron-transport layer than to the first light-emitting layer, and containing second quantum dots to which second ligands are coordinated. A dipole moment of the first ligands is larger than a dipole moment of the second ligands.

Abstract: A user equipment (UE) is described. The UE may comprise high-layer processing circuitry configured to acquire high-layer processing circuitry configured to acquire at least a first RRC parameter for indicating txConfig and a second RRC parameter for indicating whether or not a transform precoding indicator field is included in a DCI format, reception circuitry configured to receive the DCI format for scheduling of a PUSCH and transmission circuitry configured to transmit the PUSCH.

Abstract: An image capturing device includes: an image capturing unit configured to capture a 4K or higher resolution moving image; and a selector switch configured to switch an image capturing mode in which the image capturing unit captures the moving image from a first image capturing mode to a second image capturing mode, the second image capturing mode providing a higher resolution in detecting an amount of change in pulse wave information representing a pulse wave of a living body in the captured moving image than does the first image capturing mode.

Abstract: A display device comprises: a display region having a plurality of pixels; and a frame region, the display region including: a thin-film transistor layer; a light-emitting-element layer provided above the thin-film transistor layer; and a sealing layer provided above the light-emitting-element layer, the light-emitting-element layer including: a first electrode; a second electrode; a light-emitting layer provided between the first electrode and the second electrode; and an electron-transport layer provided between the light-emitting layer and the second electrode, and the electron-transport layer containing: nanoparticles of metal oxide; and a binding resin.

Abstract: Provided in the present disclosure are a method for radio link failure recovery and user equipment. In the method for radio link failure recovery, a user equipment (UE) detects that a handover failure occurs, and when the UE has a stored conditional handover (CHO) configuration, or when the UE has a stored conditional handover (CHO) configuration and CHO recovery is enabled, the UE reverts back to a configuration used in a source cell. The configuration used in the source cell includes one or more of a physical layer dedicated configuration, a medium access control (MAC) layer configuration, or a semi-persistent SPS configuration.

Abstract: A display device includes a first position detection pressing circuit that detects a first position of the input operation at the first sensor, a second position detection pressing circuit that detects a second position of the input operation at the second sensor, and an input position detection pressing circuit that detects the input position with respect to the display panel based on the first position detected by the first position detection pressing circuit and the second position detected by the second position detection pressing circuit.

Abstract: A terminal apparatus determines whether to delete all entries included in an entry list held by the terminal apparatus in a case that an RRC connection reconfiguration is performed, deletes all entries included in the entry list in a case that it is determined to delete all entries included in the entry list, and does not delete one or more entries included in the entry list in a case that it is determined not to delete all entries included in the entry list.

Abstract: A display device with a touch panel includes a touch panel including a pixel electrode, and a control unit executing a write process of writing a data signal on the pixel electrode and a touch detection process by the touch panel. The control unit determines an executable number of times of the touch detection process based on the length of the pause period, alternately executes the touch detection process and the write process in the display period, and executes the touch detection process a number of times equal to or less than the determined executable number of times in the pause period.