▎ 摘　　要

NOVELTY - The module has a catalytic layer (100) which is provided with an aerogel layer (110) and thermally activated catalyst particles (120) partially distributed inside the aerogel layer. The catalytic layer is provided with an energization port (130). An adsorption layer (200) is provided with an adsorption material layer (210). The catalytic layer and the adsorption layer are stacked with each other. The adsorption layer is partially embedded in the catalytic layer. The aerogel layer is provided as a graphene gas gel layer. The thermally activated catalyst particles is provided with metal oxide particles such as manganese oxide particles, nickel oxide particles, cerium oxide particles, copper oxide particles, palladium oxide particles, titanium oxide particles, zinc oxide particles, tin oxide particles, cobalt oxide particles, and iron oxide particles, and noble metal particles such as of platinum particles, palladium particles, gold particles, ruthenium particles, and silver particles. USE - Air purifying module used in air processing device (claimed). ADVANTAGE - The volatile organic compound (VOC) in the air is adsorbed, catalyzed and decomposed efficiently so as to efficiently purify the VOC in the air for long time with high broad application prospect. The composition of the air purifying module is adjusted flexibly according to the actual need, structure and performance of the air purifying module. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for the following: (1) a method for manufacturing air purifying module; and (2) an air processing device. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of the air purifying module. Catalytic layer (100) Aerogel layer (110) Thermally activated catalyst particle (120) Energization port (130) Adsorption layer (200) Adsorption material layer (210)