39results about How to "Conductivity recovery" patented technology

The invention provides a flexible strain sensor and a preparation method thereof. The method includes immersing a liquid conductive material in an elastic fabric; respectively providing two ends of the elastic fabric with an electrode, and connecting electrode leads on the electrodes; coating the outer surface of the elastic fabric with an elastomer material and exposing the electrode leads from the elastomer material; obtaining a flexible strain sensor after the elastomer material is solidified. According to the embodiment of the invention, the elastic fabric is selected as a storage channelof the liquid conductive material, and when tension or pressure is applied to the sensor, the liquid conductive material can flow out of the elastic fabric, so that the electrical conductivity of theelastic fabric can be reduced; after the applied external force is removed, the discharged liquid conductive material flows back to the elastic fabric again, thus the conductivity of the elastic fabric is restored, so that the sensor has the functions of tension sensing and pressure sensing at the same time. Not only does the strain sensing range be widened, but also simplifies the preparation process is simplified.

The invention relates to a method for preparing a graphene and fluorine co-doped tin oxide transparent conductive film. The method is characterized in that the chemical composition of the graphene andfluorine co-doped tin oxide transparent conductive film is SnO2-x+zFxCy, wherein x=0.1 to 0.5, y=0.2 to 1, z=0.05y to 0.1y, the preparation process includes in-situ reduction of graphene oxide, hybrid sol formulation, hybrid film formation and hybrid film postprocessing, and transparent conductive film glass has the film thickness of 500 to 1200 nm, the visible light transmittance of 82% to 88% and the square resistance of 5 to 20 Omega / square. According to the method, the electrical conductivity, stability, toughness and hydrophobicity of the tin oxide transparent conductive film are improved. The transparent conductive film prepared by using a sol-gel method has the advantages of simple process and equipment, safety and environmental protection, and easy realization of industrialization.

A structure and a method for mitigation of the damage arising in the source / drain region of a MOSFET is presented. A substrate is provided having a gate structure comprising a gate oxide layer and a gate electrode layer, and a source and drain region into which impurity ions have been implanted. A PAI process generates an amorphous layer within the source and drain region. A metal is deposited and is reacted to create a silicide within the amorphous layer, without exacerbating existing defects. Conductivity of the source and drain region is then recovered by flash annealing the substrate.

The invention discloses a copper alloy for a wire with high conductivity and high elongation rate and a preparation method thereof, belonging to the technical field of copper alloy preparation. The copper alloy material for the wire contains 0.04-0.06% lead by weight, 0.6-0.7% iron, 0.06% cerium and the rest is copper. The preparation method is that the components in the above weight ratio are mixed and smelted, ingot-cast, hot-rolled, solutionized, cold-rolled and pickled. Its electrical conductivity is 97-102% IACS, and its elongation is 15-19%. It can better meet the performance requirements of copper alloy materials for wires in the field of electronics industry, and can also be used in the field of copper alloy materials that require high conductivity and high elongation. And it has the advantages of simple process and low cost.

The object of the present invention is to provide a method for reactivating a counter electrode active material of a dye-sensitized solar cell, a method for regenerating a dye-sensitized solar cell using the method, a catalyst layer of a dye-sensitized solar cell, and a counter electrode. , an electrolyte solution and a dye-sensitized solar cell, wherein the regeneration method of the dye-sensitized solar cell includes regenerating the conductive polymer reduced by the redox pair in the electrolyte solution of the dye-sensitized solar cell, which can temporarily reduce The power generation performance of the dye-sensitized solar cell is restored to the initial performance, and the reduction of the power generation performance of the dye-sensitized solar cell can be prevented. The invention is a method for reactivating the counter electrode active material of a dye-sensitized solar cell, which is a method for reactivating the counter electrode active material of a dye-sensitized solar cell. The dye-sensitized solar cell has at least More than one kind of conductive polymer is used as a counter electrode composed of a catalyst layer of the counter electrode active material, and the method includes: reoxidizing the conductive polymer by chemical oxidation or electrochemical oxidation.

The invention discloses a preparation method of high-electroconductivity graphene, belonging to the field of nano graphite electroconductive materials. The method comprises the following steps: dispersing low-oxidation-degree graphite oxide in a solvent containing aromatic alcohol to obtain a low-oxidation-degree graphene oxide dispersion solution, and carrying out solvothermal reduction on the dispersion solution to obtain the high-electroconductivity graphene, wherein the mol ratio of oxygen to carbon in the low-oxidation-degree graphene oxide is lower than 1:2, and the low-oxidation-degree graphene oxide does not have any characteristic diffraction peak in an X-ray diffraction pattern. The preparation method disclosed by the invention has the characteristics of high speed, high efficiency and no toxicity. The graphene disclosed by the invention has high electroconductivity, and is applicable to the fields of battery materials, energy storage materials, electronic devices, electroconductive / thermoconductive materials, electromagnetic shielding materials, antistatic materials and the like.

The present invention disclosed a high -strength heat -resistant aluminum alloy wire, with industrial pure aluminum as raw materials, adding trace boron, cricket, manganese, copper, and cricket elements at 800 ± 10 ° C.0.30%boron, 0.05 ~ 0.60%锑, 0.02 ~ 0.80%manganese, 0.05 ~ 2.30%copper, 0.05 ~ 0.90%锆, the balance is pure aluminum and inevitable impurities.manufacture.The aluminum alloy wires made by the present invention have both high intensity and good heat resistance and better conductivity, and the comprehensive performance of the wire has improved significantly.The invention aluminum alloy wires can be widely used in my country's transmission lines, especially in large span and long -distance transmission transmission projects.

The invention discloses a preparation method of a hydrogel electrode with high mechanical properties and self-healing property, belonging to the technical field of biomaterials. In the present invention, polydopamine-modified conductive nanomaterials are firstly prepared in a solution, and then water-soluble monomers are added to the solution, and then an initiator, a cross-linking agent and an auxiliary agent are added to mix evenly, and the hydrogel is formed by free radical polymerization. electrode. The hydrogel electrode prepared by the invention does not have good electrical conductivity and mechanical properties; and due to the non-covalent bond between polydopamine chains, the hydrogel electrode has good self-healing performance. The hydrogel electrode prepared by the invention has the ability to heal spontaneously in a short period of time after accidental damage; combined with its good biocompatibility, the self-healing hydrogel electrode prepared by the invention It is expected to be applied to modern clinical detection and biomedical measurement.

A method for forming a wire portion of a liquid crystal chromic device. The method includes: a) preparing a liquid crystal chromic device by forming a transparent electrode on a substrate, and forming an alignment film on the transparent electrode; b) forming two or more etching lines spaced apart by a constant interval by irradiating the alignment film with a laser; and c) applying a conductive paste to a valley region of each of the two or more etching lines. The liquid crystal chromic device includes: a substrate; a transparent electrode provided on the substrate; an alignment film provided on the transparent electrode; and two or more etching lines provided on the alignment film. The two or more etching lines are spaced apart by a constant interval, and a valley region of each of the two or more etching lines is coated with a conductive paste.

The invention relates to the technical field of liquid metal sintering and fusion, in particular to a method for inducing fusion and sintering of liquid metal micro-nano droplets by solvent evaporation. Evaporate and dry the liquid metal micro-nano droplet dispersion or the liquid metal micro-nano droplet dispersion containing additives, and use the capillary force generated during the evaporation and drying process to achieve sintering and fusion. The method for sintering liquid metal micro-nano droplets of the present invention has the advantages of simple operation, low cost, and can be realized at normal temperature and pressure, and can be used in many fields such as packaging circuits, 3D printed electronic technology, sensors, drivers, and electromagnetic shielding.

The invention relates to a regeneration method of a charging roller of a laser imaging processing box, wherein the charging roller works for at least one work period. The cross section structure of the charging roller at least comprises a mandrel, an insulating layer coated on the mandrel and a conducting layer coated on the insulating layer. The regeneration method comprises the following processing steps in sequence: (1) removing the coatings on the periphery surface of the insulating layer; (2) using high-pressure airflow to wash the insulating layer through blowing, wherein the high-pressure airflow dispersedly flows past pores of the insulating layer; and (3) coating original functional layers at least comprising a new conductive layer, wherein the periphery surface of the new conductive layer is exposed. The method is simple and practicable, has the characteristics of high efficiency and low cost, and can be used for effectively recovering the conductivity of the conductive roller and simultaneously eliminating bottom ash which occurs on a work surface and is caused by the charging roller when the image is printed, thus the reproduced product has favorable quality.