Abstract: An energy storage apparatus and a photovoltaic energy storage system. The energy storage apparatus includes a heat exchange module, a liquid cooling module, a first heat dissipation module, a second heat dissipation module, and a load. The liquid cooling module performs heat exchange with the load. A housing of the heat exchange module has two cooling interfaces, two first liquid cooling interfaces, and two second liquid cooling interfaces. A heat exchanger and a multi-port valve are disposed inside the heat exchange module. The heat exchanger is connected to the two first liquid cooling interfaces and the two cooling interfaces. The multi-port valve is connected between the heat exchanger and one first liquid cooling interface, the multi-port valve is connected to one second liquid cooling interface, and the other second liquid cooling interface is connected to the other first liquid cooling interface.

Abstract: The present invention provides an anti-CD39 antibody-drug conjugate or a pharmaceutically acceptable salt or solvate thereof, a pharmaceutical composition comprising the conjugate or the pharmaceutically acceptable salt or solvate thereof, and use thereof as an anti-cancer drug, particularly use thereof in the preparation of a medicament for treating a CD39-mediated disease or disorder. The anti-CD39 antibody-drug conjugate provided by the present application significantly improves the effects and in-vivo/in-vitro tumor-killing activity of cytotoxin drugs.

Abstract: Disclosed are a heat exchanger fin, a heat exchanger, an indoor unit and an air conditioner. The heat exchanger fin includes a fin body, and the fin body includes an air outlet contour line arranged on one side and an air inlet contour line arranged on the other side; refrigerant pipe mounting holes are provided in the fin body; and on a straight line where the curvature radius of the air outlet contour line of the fin body is located, or on a straight line where the curvature radius of the air inlet contour line of the fin body is located, the distance between the air inlet contour line and the air outlet contour line of the fin body is gradually reduced from the middle to two ends of the heat exchanger fin.

Abstract: Provided in the present invention is an anti-CD39 antibody, an antigen-binding fragment thereof, and pharmaceutical use thereof, and also provided are a chimeric antibody and a humanized antibody comprising CDR regions of the antibody, a pharmaceutical composition comprising the anti-CD39 antibody and the antigen-binding fragment thereof, and use of the antibody in preparing a medicament for treating diseases or disorders. The antibody of the present invention can specifically bind to CD39 and shows good effect in inhibiting tumor growth and good safety.

Abstract: A multi-order optical modulator and modulation method for on-chip optical matrix calculation are provided. The modulator includes: input waveguides, a 2×2 optical beam splitter, initial phase modulators, multi-order phase modulators, a 2×2 optical beam combiner, and an output waveguide; the input waveguides include a first input waveguide and a second input waveguide; the initial phase modulators include a first initial phase modulator and a second initial phase modulator; the multi-order phase modulators include a first multi-order phase modulator and a second multi-order phase modulator which are connected to the first initial phase modulator and the second initial phase modulator; and two input ends of the 2×2 optical beam combiner are respectively connected to the first multi-order phase modulator, the second multi-order phase modulator, and the output waveguide.

Abstract: Provided are a light-emitting chip, a light-emitting substrate, a display device, and a manufacturing method for a light-emitting substrate. The light-emitting chip includes: a substrate; a light-emitting structure, the light-emitting structure disposed on a side of the substrate; a reflective layer disposed on a side, facing away from the substrate, of the light-emitting structure; at least two sub-light-emitting auxiliary bonding layers disposed on a side, facing away from the light-emitting structure, of the reflective layer; and a raised portion, disposed on a side, facing away from the light-emitting structure, of the reflective layer, an orthographic projection of the raised portion on the substrate and an orthographic projection of the sub-light-emitting auxiliary bonding layers on the substrate do not overlap with each other, and a thickness of the raised portion is smaller than a thickness of each of the at least two sub-light-emitting auxiliary bonding layers.

Abstract: A circuit substrate includes a base substrate, traces, a protective layer, and an electronic device. The traces are provided on the base substrate. The protective layer is provided on the traces, and has openings each exposing a portion of a trace, the portion serving as a conductive pattern. The electronic device includes a chip and multiple bumps provided on the chip. The conductive pattern is connected to at least one of the bumps on the chip. The conductive pattern includes a first portion and a second portion connected to each other. An orthographic projection of the chip on the base substrate covers an orthographic projection of the first portion on the base substrate, and is non-overlapping with an orthographic projection of the second portion on the base substrate. The total area of conductive patterns connected to the chip is less than an area of the chip.

Abstract: The present invention belongs to the technical field of photonic integrated chips, and more specifically, relates to a reconfigurable photonic integrated chip based on a phase change material film and a processing method therefor. A phase change material film is processed with femtosecond laser and continuous laser to change its surface phase state distribution; and by customizing the number of pulses, power and the like of the laser for processing, and a pattern shape for processing, a specific surface phase state distribution is achieved, so as to achieve the function of a specific photonic integrated chip.

Abstract: The electric control box includes a box body, a mounting plate, a radiator, an electronic component and a cooling fan; the box body is provided with a mounting chamber, the mounting plate is arranged in the mounting chamber and the mounting chamber forms a first chamber and a second chamber which are located at two sides of the mounting plate, the mounting plate is provided with a first ventilation opening and a second ventilation opening which are spaced apart, the first ventilation opening and the second ventilation opening enables communication between the first chamber and the second chamber; the radiator is at least partially arranged in the first chamber; the electronic component is arranged in the second chamber and is in heat conducting connection with the radiator; and the cooling fan is used for supplying air.

Abstract: An injection mold capable of planing and cutting gates in an inside thereof and a planing and cutting method are provided. The injection mold includes a blade fixed block arranged between a moving mold and a fixed mold. Blades arranged on the blade fixed block and configured for cutting off gate condensed-material. The mold includes ejectors for ejecting out the gate condensed material and the blade fixed block. Runners formed between the blade fixed block and the fixed mold. Cut holes for communicating runners and gates are formed in blades. Ejector holes for penetrating the ejectors are formed in portions of the blade fixed block which correspond to bottoms of runners. The blade fixed block moves relative to the moving mold in a mold opening direction. The moving mold is provided with a limiting mechanism for limiting the blade fixed block after injection molding parts are separated from a cavity.

Abstract: Provided is polarization control device based on silicon waveguide and phase change material, including polarization rotation beam splitter, optical beam splitter component, phase shifter component, and polarization rotation beam combiner; input end of polarization rotation beam splitter is connected to input optical fiber; input end of first optical beam splitter is connected to output end of polarization rotation beam splitter, first output end of first optical beam splitter is connected to first phase shifter, and second output end thereof is connected to second phase shifter; input end of second optical beam splitter is connected to first phase shifter and second phase shifter, respectively, first output end of second optical beam splitter is connected to third phase shifter, and second output end of second optical beam splitter is connected to fourth phase shifter; and input end of polarization rotation beam combiner is connected to third phase shifter and fourth phase shifter, respectively.

Abstract: A heat exchanger, an electric control box, and an air conditioning system. The heat exchanger includes a heat exchange body and a collecting tube assembly. Multiple micro-channels are disposed in the heat exchange body. The collecting tube assembly includes at least two collecting tubes. At least a portion of the micro-channels passes through one collecting tube of the at least two collecting tubes and are communicated with a remaining one of the at least two collecting tubes.

Abstract: An air conditioning system includes an indoor heat exchanger, an outdoor heat exchanger, an economizer, and an electric control box: the economizer is disposed between the indoor heat exchanger and the outdoor heat exchanger; the economizer includes a heat exchange body; the heat exchange body is provided with a plurality of first micro-passages for a first refrigerant flow and a plurality of second micro-passages for a second refrigerant flow; the second refrigerant flow absorbs heat from the first refrigerant flow so that the first refrigerant flow is subcooled, or the first refrigerant flow absorbs heat from the second refrigerant flow so that the second refrigerant flow is subcooled, the economizer is further configured to dissipate heat for an electronic component in the electric control box.

Abstract: A heat exchanger includes at least two plate bodies stacked with each other and at least one connecting sheet. Each of the at least two plate bodies is provided with a plurality of micro-passages. The at least one connecting sheet is arranged between adjacent plate bodies of the at least two plate bodies. A solder is disposed on each of two opposite sides of the at least one connecting sheet, and the solder is configured to weld and fix the at least one connecting sheet with the adjacent plate bodies of the at least two plate bodies.

Abstract: A heat exchanger includes: at least two plate bodies and a collecting tube, wherein the plate bodies are provided with a plurality of micro-channels, each plate body includes a body part and a connecting part, one end of the connecting part is connected to the body part, and the body parts of the at least two plate bodies are stacked on each other; a wall of the collecting tube is provided with at least two connecting holes; and a first spacing is provided between two adjacent connecting holes of the at least two connecting holes, a second spacing is provided between the body parts of two adjacent plate bodies of the at least two plate bodies, and the first spacing is greater than the second spacing.

Abstract: A light emitting substrate, comprising a base substrate, a retaining wall disposed on the base substrate, and a plurality of light emitting diodes. The retaining wall defines a plurality of partitions on the base substrate, and at least one light emitting diode is provided in at least one partition.

Abstract: A heat exchanger includes: a heat exchanger body, the heat exchanger body being provided with first micro-channels and second micro-channels; and a header assembly, including a first header and a second header. The first header is provided with a first header channel which is used for providing a first refrigerant flow to the first micro-channels and/or collecting a first refrigerant flow flowing through the first micro-channels, and the second header is provided with a second header channel which is used for providing a second refrigerant flow to the second micro-channels and/or collecting a second refrigerant flow flowing through the second micro-channels, and heat is exchanged between the first refrigerant flow flowing through the first micro-channels and the second refrigerant flow flowing through the second micro-channels.

Abstract: Provided in the present invention is an anti-5T4 antibody-drug conjugate and the use thereof. In particular, provided in the present invention is an anti-5T4 antibody-drug conjugate. Also provided in the present invention are the pharmaceutical use of the anti-5T4 antibody-drug conjugate and the effect thereof in inhibiting or preventing tumors.

Abstract: The electric control box includes a box body, a mounting plate, a heat sink, an electronic component and a heat dissipation fan. The box body is provided with a mounting cavity. The mounting board is arranged in the mounting cavity to form a first chamber and a second chamber located on two sides of the mounting board. A first air vent and a second air vent are arranged on the mounting board and are spaced apart. The first air vent and the second air vent are connected to the first chamber and the second chamber. The heat sink is at least partially arranged in the first chamber. The electronic component is arranged in the second chamber and in thermally conductive connection with the heat sink. The heat dissipation fan is used for blowing air and from the first chamber into the second chamber via the first air vent.