102results about How to "Inhibition of hydrogen evolution reaction" patented technology

The invention relates to a method for preparing methane and ethylene through carbon dioxide electrochemical reduction. The method comprises the steps that an H-shaped dual-electrochemical-cell reactoris adopted, and is isolated into a cathode chamber and an anode chamber through a proton exchange membrane; before the reaction, carbon dioxide gas is led into the cathode chamber; a three-electrodesystem is adopted, a gas diffusion electrode serves as a work electrode, a platinum electrode serves as an auxiliary electrode, and a silver / silver chloride electrode serves as a reference electrode;the gas diffusion electrode comprises a gas diffusion electrode body and a carbon dioxide electrochemical reduction catalyst loaded gas diffusion electrode body; the carbon dioxide electrochemical reduction catalyst is graphite phase nitrogenated carbon supported nanometer copper oxide, and the nanometer copper oxide has tenorite and red copper ore. Through the method, the faradic efficiency of carbureted hydrogen of methane, ethylene and the like can be improved.

The invention provides a lead paste for negative electrode of a lead-carbon battery, a preparation method of the lead paste, a polar plate for the negative electrode of the lead-carbon battery, and the lead-carbon battery. The lead paste for the negative electrode of the lead-carbon battery comprises the following components in parts by weight: 85-100 parts of lead powder, 0.5-2 parts of modifiedactivated carbon, 4-8 parts of sulfuric acid, 0.1-2 parts of barium sulfate, 0.05-1 part of sodium lignosulfonate, 0.1-0.3 part of humic acid, 0.05-1 part of short fibers, and 8-15 parts of water. Thepreparation method comprises the following steps: taking and mixing lead powder, modified activated carbon, sulfuric acid, barium sulfate, sodium lignosulfonate, humic acid, short fibers and water according to proportioning quantities to obtain the lead paste for the negative electrode of the lead-carbon battery. The polar plate for the negative electrode of the lead-carbon battery, provided by the invention, comprises the lead paste for the negative electrode of the lead-carbon battery, and the lead-carbon battery comprises the polar plate for the negative electrode of the lead-carbon battery. The lead paste for the negative electrode, provided by the invention, inhibits a hydrogen evolution reaction and improves the utilization rate of a carbon material in a negative electrode plate.

The invention relates to a nanometer composite material, in particular to a nanometer tin / carbon composite material and a preparation method thereof. A nanometer tin and carbon compound is obtained bytaking various carbon materials as a substrate, tin nitrate, tin chloride, tin sulfate, tin acetate, tin citrate and the like as a tin source, water containing an organic complexing agent, ethylene glycol, propylene glycol or other mixture as a solvent and sodium borohydride, potassium borohydride, hydrazine hydrate and the like as a reducing agent and by an absorption-decomposition-reduction method. According to the method, a solution containing tin ions is absorbed to a surface of a carbon material, remaining solution is filtered, the tin oxide / tin and carbon compound is obtained after thermal treatment, and the nanometer tin / carbon composite material is finally obtained by reduction reaction. In the composite material obtained by the method, metal tin particles are uniformly distributed in surfaces of carbon particles in nanometer size, and a phenomenon that a large amount of tin can be agglomerated by a traditional tin reduction method is prevented.

The invention discloses a symmetric aqueous solution lithium ion battery and a modification method. Fluorine lithium vanadium phosphate is simultaneously used as a positive electrode and a negative electrode, and an aqueous solution containing lithium ions serves as electrolyte. An electrode surface serving as the negative electrode is covered with a protection film which is 5-1,000nm thick and has high hydrogen evolution overpotential so as to suppress hydrogen evolution of the negative electrode. According to the symmetric aqueous solution lithium ion battery, the fluorine lithium vanadium phosphate is simultaneously applied to the positive electrode and the negative electrode of water system lithium ions, so that the manufacturing cost of an electrode piece material is reduced. The symmetric aqueous solution lithium ion battery modified by the modification method disclosed by the invention effectively suppresses hydrogen evolution reaction and has the characteristics of long service life, high power, high safety, no environment pollution and the like.

The invention relates to a water-ether mixed electrolytic solution for a lithium ion battery, and a preparation method thereof, and belongs to the technical field of lithium secondary batteries. According to the invention, the mixed electrolytic solution is obtained by mixing a lithium salt, water and an ether solvent, and has relatively low viscosity, relatively high ionic conductivity and a relatively wide electrochemical stability window; the mixed electrolytic solution and an electrode material can generate a compact SEI film, so that a positive electrode and a negative electrode are protected against corrosion, normal charging and discharging of a common commercial electrode material can be guaranteed, and the electrochemical performance of the common commercial electrode material isimproved; and the preparation process of the mixed electrolytic solution is simple, the raw materials are easy to obtain, safe and pollution-free, and the mixed electrolytic solution is suitable for large-scale batch production.