Abstract: A pixel circuit, a display panel, a display apparatus and a driving method. The pixel circuit includes a data signal writing module, a driving module, a threshold compensation transistor, a first power voltage writing module and a light-emitting module, wherein the driving module includes a driving transistor.

Abstract: The present disclosure discloses a method for modifying a DNA by utilizing a glycosylase and an oxyamine compound, including the following steps: conducting solid phase synthesis of a DNA strand carrying a non-canonical base; reacting the DNA strand carrying a non-canonical base under the catalysis of the glycosylase which selectively recognizes the non-canonical base, to produce a DNA strand carrying an abasic site; and reacting the DNA strand carrying the abasic site with the oxyamine compound to generate a DNA modified with a chemical functional group. This method can realize diverse site-directed modification of the DNA, can be used to study the base structure-function relationship of a functional DNA, and construct a functional DNA with higher activity. The present method is simple and easy to use, and can reduce the cost and the time required for modification. The modified functional DNA has higher activity and can provide better tool molecules for biotechnology, disease diagnosis and treatment.

Abstract: The present invention relates to a lidar, including: a laser emitter, configured to emit a laser beam; an emitting lens, disposed downstream of an optical path of the laser emitter, configured to emit a detection light beam after shaping the laser beam, and the emitting lens including an diaphragm region; a receiving lens, configured to receive a reflected light beam of the detection light beam after being reflected outside the lidar; and a compensation lens, disposed in a diaphragm region of the emitting lens, configured to receive at least a part of the laser beam and/or the detection light beam and redirect the received part of the laser beam and/or the detection light beam toward the receiving lens.

Abstract: The present invention relates to a method for preparing an intermediate (Formula IV) of sodium elagolix. The intermediate is prepared by the following route. The method has advantages of simple and safe operation, high yield, less environmental pollution, good economic effect and suitability for industrial production, wherein R represents C1-C4 substituted or unsubstituted benzyl or allyl.

Abstract: A receiving system for a lidar, comprises: a receiving lens, configured to receive echoes of a detection laser beam reflected by an object from an exterior of the lidar; a reflective structure, disposed downstream of an optical path of the receiving lens, to receive the echoes from the receiving lens, and change a propagation direction of the echoes by reflection; a detector, disposed downstream of an optical path of the reflective structure to receive a reflected echo from the reflective structure; and a ghost line reduction device, disposed between the reflective structure and the detector, wherein the ghost line reduction device includes a physical structure to block an echo that causes a ghost line in a point cloud of the lidar from entering the detector. The receiving system resolves the misrecognition problem caused by ghost lines in the point cloud to improve the detection accuracy of the lidar.

Abstract: The present invention relates to a method for preparing an intermediate (Formula IV) of sodium elagolix. The intermediate is prepared by the following route. The method has advantages of simple and safe operation, high yield, less environmental pollution, good economic effect and suitability for industrial production, wherein R represents C1-C4 substituted or unsubstituted benzyl or allyl.

Abstract: A laser array combining device, which comprises: a laser gain medium array, comprising at least two laser gain units, and each generates a laser beam; a shaping optical system, optical shaping to the laser beams generated by the laser gain medium array, the shaping optical system comprises: a fast axis collimating lens, arranged at an emergent side of the laser gain medium array; a field flattening lens, arranged at an emergent side of the fast axis collimating lens, correcting the field curvature of the shaping optical system; a negative lens, arranged at an emergent side of the field flattening lens; a cylindrical lens, arranged at an emergent side of the negative lens for collimating the laser beams; a dispersing optical unit, arranged at an emergent side of the shaping optical system for diffracting incident laser beams; a partial reflection optical unit, receiving laser beams emitted by the dispersing optical unit.

Abstract: A laser array combining device, which comprises: a laser gain medium array, comprising at least two laser gain units, and each generates a laser beam; a shaping optical system, optical shaping to the laser beams generated by the laser gain medium array, the shaping optical system comprises: a fast axis collimating lens, arranged at an emergent side of the laser gain medium array; a field flattening lens, arranged at an emergent side of the fast axis collimating lens, correcting the field curvature of the shaping optical system; a negative lens, arranged at an emergent side of the field flattening lens; a cylindrical lens, arranged at an emergent side of the negative lens for collimating the laser beams; a dispersing optical unit, arranged at an emergent side of the shaping optical system for diffracting incident laser beams; a partial reflection optical unit, receiving laser beams emitted by the dispersing optical unit.

Abstract: A laser array includes laser diodes arranged in a stepped form; a shaping optical system deposited at the emitting side of each one of the diodes in the laser array; and a beam combining optical element deposited at the emitting side of the shaping optical system, the beam combining optical element having reflecting surfaces arranged in a stepped form and corresponding to each of the laser diodes.

Abstract: The present invention provides a laser array and a laser beam combining device. The laser beam combining device comprises: a laser array comprising several laser diode devices each of which has an emitting surface at the emitting side of the laser array, several said emitting surfaces are arranged in a stepped form; a shaping optical system, set at the emitting side of said laser array; a beam combining optical element, set at the emitting side of said shaping optical system, said beam combining optical element comprises several reflecting surfaces corresponding to said laser diode devices, several said reflecting surfaces are arranged in a stepped form. By using the laser beam combining device, spacing between the lasers of each laser diode device can be decreased or eliminated, and a laser source with higher energy density can be gotten.

Abstract: The present invention describes a solid-state laser device based on a twisted-mode cavity and a volume grating, which comprises: a pumping source for emitting pump light; an optical resonator, which comprises: a cavity mirror, which is a high reflective mirror for introducing the pump light into the optical resonator; an output coupler, which is a reflective volume Bragg grating spaced away from the cavity mirror; a twisted-mode cavity, which includes: a first wave plate, located at one side close to the pumping source; a second wave plate, located at another side far away from the pumping source; a gain medium, located between the first wave plate and the second wave plate for generating a fundamental frequency laser; a focusing unit, located between the pumping source and the optical resonator for focusing the pump light emitting from the pumping source to the optical resonator.

Abstract: Synthesis of polystyrene and/or other thermoplastic polymers or polymer blends which, for example, contain activated carbon and/or bamboo carbon carrying a co-blowing agent such as water and/or at least one of 1-dimensional, 2-dimensional, and 3-dimensional nano/micro-materials in suspension polymerization without using the inverse emulsion process. CO2 or other blowing agent based foaming processes such as extrusion, batch foaming, and injection molding may then be carried out to produce polymer foams that have low density, high-R value, bimodal structures, good mechanical properties, and high fire retardance.

Abstract: Exemplary embodiments of the present invention relate to polystyrene and/or thermoplastic polymer or polymer blend composite foam or a foamable polymeric material precursor, which contains activated carbon and/or at least one of 1-dimensional, 2-dimensional, and 3-dimensional nano/micro-materials in polystyrene and/or thermoplastic polymer and/or polymer blend matrix to carry a co-blowing agent such as water without using any surfactant-like molecules and/or polymers, having or adapted to have the properties of low density, high-R value, good mechanical properties, and fire retardance thereof. Exemplary embodiments of the present invention include various manufacturing methods that may be employed including, but not limited to, extrusion, batch molding, and injection molding. One example includes synthesis and CO2 and water-based extruded foaming of such a material.

Abstract: Synthesis of polystyrene and/or other thermoplastic polymers or polymer blends which, for example, contain activated carbon and/or bamboo carbon carrying a co-blowing agent such as water and/or at least one of 1-dimensional, 2-dimensional, and 3-dimensional nano/micro-materials in suspension polymerization without using the inverse emulsion process. CO2 or other blowing agent based foaming processes such as extrusion, batch foaming, and injection molding may then be carried out to produce polymer foams that have low density, high-R value, bimodal structures, good mechanical properties, and high fire retardance.