The dry reforming method is attracting great attention because it can produce hydrogen using carbon dioxide and methane, which are greenhouse gases. Although several dry reforming studies have been conducted using bimetallic alloys, additional studies...
The dry reforming method is attracting great attention because it can produce hydrogen using carbon dioxide and methane, which are greenhouse gases. Although several dry reforming studies have been conducted using bimetallic alloys, additional studies are needed to ensure the high efficiency and high stability required for the industrial level. In this paper, we proceed with dry reforming by solvothermal synthesis using Nickel acetylacetonate and Copper acetylacetonate which have the same face-centered cubic(fcc) structure in nanoparticles. Using three solvents, (1) Ethanol (2) DMF(N, Ndimethylformamide) (3) Ethanol : Acetone (vol 50 : 50), we check which solvent has the highest CO2 and CH4 conversion rate and yield rate. Furthermore, by confirming that there is no change in the rate at 700°C for 24 hours, we show excellent catalytic stability when synthesizing elements with the same crystal structure.