Preparation method of potassium carbonate chemically-activated low-order carbon source-based porous carbon

Abstract

The invention aims to provide a preparation method of potassium carbonate chemically-activated low-order carbon source-based porous carbon, which has the advantages of developed pores, relatively highgraphitization degree, simple preparation process and obvious graphitization structure, and can be applied to the field of electrochemical energy storage such as electrode materials of electric double-layer supercapacitors. The preparation method of the potassium carbonate chemically-activated low-order carbon source-based porous carbon comprises the following steps: a low-order carbon source isprocessed into powder, and drying is conducted; 2-5 parts by weight of potassium carbonate is dissolved in water, a potassium carbonate solution is obtained, then 1 part by weight of the powdery low-order carbon source obtained in the step A is added into the potassium carbonate solution, and the potassium carbonate solution mixed with the powdery low-order carbon source is placed in a stirrer tobe stirred evenly, and a mixture is obtained. The mixture obtained in the step B is placed in an atmosphere furnace filled with nitrogen or argon, heating is conducted by the atmosphere furnace at a rate of 3-20 DEG C/min, and the atmosphere furnace heats to 900-1300 DEG C.

Description

technical field [0001] The invention relates to a preparation method of potassium carbonate chemically activated low-order carbon source-based porous carbon. Background technique [0002] Compared with conventional chemical batteries, supercapacitors have the advantages of long service life, high power density, fast charge and discharge rate, and wide operating temperature limit. They have a wide range of applications in solar energy, wind power generation, new energy vehicles, and smart grids. Electrode materials are the key components of supercapacitors, mainly carbon-based materials, transition metal oxides and polymers. [0003] According to the calculation formula of supercapacitor specific capacitance, power and energy C=εA / d, E=1 / 2CV 2 and P=U 2 / R (C is the specific capacitance, ε is related to the conductivity of the material, A is the specific surface area, d is the interlayer spacing, U is the working voltage of the electrolyte), it can be concluded that the spe...

AI Technical Summary

Problems solved by technology

However, coal or biomass-based porous carbon materials prepared by conventional physical activation or high-temperature carbonization processes have undeveloped pore structures (the specific surface area is generally lower than 1000m 3 / g), mostly amorphous carbon, which is difficult to meet the requirements of high-performance electric double layer electrode materials for porosity and graphitization degree

[0005] The present invention aims to solve the problems of underdeveloped porosity and graphitization degree of conventional coal or biomass-based porous carbon materials