Abstract: This application discloses a method of performing an attack operation in a game by a computing device. The computing device determines a target range corresponding to a first attack operation performed by a first controlled object; determines a target attack object from to-be-attacked objects according to attribute values of the to-be-attacked objects in a case that there are the to-be-attacked objects in the target range, the to-be-attacked objects belonging to a second group, and the attribute value of the to-be-attacked object including: a reduced health value of the to-be-attacked object after the first attack operation is performed on the to-be-attacked object, and/or, a reduced health value of an object in the first group after a second attack operation of the to-be-attacked object is performed on the object; and then controls the first controlled object to perform the first attack operation on the target attack object in the virtual scene.

Abstract: Disclosed herein is a radiation detector comprising: a substrate of an intrinsic semiconductor; a semiconductor single crystal in a recess in the substrate, the semiconductor single crystal having a different composition from the intrinsic semiconductor; a first electrical contact in electrical contact with the semiconductor single crystal; a second electrical contact on or in the substrate, and surrounding the first electrical contact or the semiconductor single crystal, wherein the second electrical contact is electrically isolated from the semiconductor single crystal; wherein the radiation detector is configured to absorb radiation particles incident on the semiconductor single crystal and to generate charge carriers.

Abstract: An atomizing assembly includes a housing, an atomizing base, an atomizing element, and a sealing member. The housing is provided with a liquid storage chamber and an airflow channel. The liquid storage chamber is configured to store liquid. The atomizing base is fixed to the housing and configured to seal the liquid storage chamber. The atomizing base is provided with a liquid inlet in communication with the liquid storage chamber. The atomizing element is disposed in the atomizing base and configured to atomize the liquid flowing into the atomizing element through the liquid inlet. The sealing member is movably disposed on the atomizing base and configured to seal or unseal the liquid inlet. An electronic atomizing device is further provided, which includes the aforementioned atomizing assembly and a power supply assembly connected to the housing and electrically coupled to the atomizing element.

Abstract: A lens module includes a circuit board, a base mounted on the circuit board, and at least one electronic component mounted on the circuit board. The base comprises a first surface and a second surface facing away from the first surface. The second surface is mounted on the circuit board. The base further comprises at least one first hole passing through the first surface and the second surface. The at least one electronic component is received in the at least one first hole. The lens module further comprises a filling layer in each of the at least one first hole and located on a side of the at least one electronic component facing away from the circuit board. The disclosure also provides an electronic device having the lens module.

Abstract: A preparation method of a thin film transistor (TFT) array substrate includes a step of providing a substrate to prepare a light shielding layer and a buffer layer in sequence on the substrate; and a step of preparing an active layer, a gate insulation layer, a gate, an interlayer insulation layer, and a source/drain metal layer in sequence on the buffer layer; wherein a light absorption layer is prepared on one side of the active layer. Absorbing light prevents most of the light from being reflected to the active layer by disposing a black photoresist below a source and a drain or over the light shielding layer, thereby improving performance of TFT devices.

Abstract: A sensing film includes a base layer, a piezoelectric layer formed on the base layer, and a first electrode and a second electrode formed on the piezoelectric layer. The first and second electrodes are spaced apart and electrically insulated from each other. The first electrode includes a first connecting portion and a number of first extending portions coupled to the first connecting portion. The second electrode includes a second connecting portion and a number of second extending portions coupled to the second connecting portion. The first connecting portion and the second connecting portion are spaced apart and face each other. The first extending portions extend from a side of the first connecting portion toward the second connecting portion. The second extending portions extend from a side of the second connecting portion toward the first connecting portion. The first extending portions and the second extending portions are alternately arranged.

Abstract: A flip-type wire slot relates to the technical field of wire slots, including: a wire slot main body and a wire slot cover, wherein one side of the wire slot cover is fixedly connected to one side of the wire slot main body, the other side of the wire slot cover is a free side, and the free side of the wire slot cover (2) is detachably connected to the other side of the wire slot main body. The adoption of the above technical solution has the advantage of facilitating the removal of the wire slot cover.

Abstract: The present invention provides a display panel and a display device using the display panel. By connecting a plurality of second scan lines in parallel, resistance between output terminals of chips on film (COF) and first scan lines are reduced, and differences between output resistances of the COF corresponding to different first scan lines are reduced, so differences between signals in different first scan lines are reduced, and uneven display problems in existing display panels are solved.

Abstract: The present application provides a sensor module, a method for manufacturing the sensor module, and a display panel. The sensor module is integrated by a light-sensitive PN junction and a bottom-gate thin film transistor, a limitation of an integration of top-gate thin film transistor photosensitive sensor is prevented, and a problem of increased thickness and development cost in an integration of a photosensitive sensor on a bottom surface and the display panel is solved.

Abstract: A color filter substrate, a manufacturing method thereof, and a display panel are provided. The color filter substrate includes a first substrate, a color resist layer, an overcoat layer, and a quantum dot layer, which are sequentially stacked. The color resist layer includes a plurality of sub-color resist layers with different colors arranged along a second direction, and there is no black matrix disposed between two adjacent sub-color resist layers. The quantum dot layer is divided into a plurality of quantum dot areas arranged along the second direction. A plurality of banks are disposed between and correspond to two adjacent quantum dot areas, and the banks are black.

Abstract: A touch display and an anti-interference method thereof are provided. The touch display has a display panel, a touch panel, a touch chip, and a compensation circuit. A compensation signal line is led out from a common electrode layer of the display panel. A sensing signal line is led out from a touch layer of the touch panel. An input terminal of the compensation circuit is connected to the compensation signal line and the sensing signal line, and a compensated sensing signal is output to the touch chip from the output terminal. An ability of the touch screen to resist noise interference is improved.

Abstract: An array substrate and a method for fabricating the same are provided. The array substrate includes a base substrate, a pixel unit, and a spacer stacked sequentially. The pixel unit includes a main pixel electrode and a thin film transistor. The main pixel electrode includes a main electrode, a plurality of branch electrodes, and a plurality of connection lines. The main electrode includes a first strip electrode and a second strip electrode crossing each other. The branch electrodes extend diagonally from the main electrode. The connection lines extend from some of the branch electrodes and are electrically connected to the thin film transistor. A projection of the spacer and a projection of the connection lines on the base substrate do not overlap, and the two projections do not overlap in a direction parallel to the first strip electrode and a direction parallel to the second strip electrode.

Abstract: A lottery assembly and a packaging device are provided. The lottery assembly includes a lottery portion and a code portion, the code portion is provided with a first code area at a side surface thereof, and the lottery portion includes a lottery area and a second code area. The code portion is separated from the lottery portion. First information of the first code area is in correspondence with second information of the lottery portion, and the first information of the first code area is in correspondence with third information of the second code area. The packaging device includes a housing and the above lottery assembly, and the housing defines an accommodation space for accommodating a commodity. The lottery portion is arranged in the accommodation space, and at least part of the code portion is provided at an outer side of the housing to expose the first code area.

Abstract: The present disclosure provides an array substrate, including a display region, and the display region includes driving circuit regions. The array substrate includes a first substrate, a gate driver on array (GOA) circuit and a pixel driving circuit respectively disposed on opposite sides of the first substrate and located in the driving circuit regions. The GOA circuit is connected with the pixel driving circuit through a plurality of via holes, so wiring regions of the GOA circuit and wiring regions of the pixel driving circuit can overlap in space, thereby reducing space occupied by a pixel display region and increasing a pixel aperture ratio.