Authors: Carrales-Alvarado, DH; Dongil, AB; Fernandez-Morales, JM; Fernandez-Garcia, M; Guerrero-Ruiz, A; Rodriguez-Ramos, I Article. Catal. Sci. Technol.. vol: 10. page: 2044-4753. Date: oct-21. 2020. Doi: 10.1039/d0cy01088j. Abstract: The decomposition of formic acid to obtain hydrogen has been studied using molybdenum carbides supported on activated carbon and two high surface area graphites, H-200 (200 m(2) g(-1)) and H400 (400 m(2) g(-1)). Particular attention is paid to the effect of Mo loading. The catalysts were prepared in situ using a mixture of CH4 and H-2 at a temperature of up to 700 degrees C. Under these conditions, carburization was mostly complete. We observed that the support influenced the MoxC phase obtained so that it seems that the ratio of defective carbon influences the phase. However, for these materials the C/Mo ratio did not influence the obtained crystal phase. Characterization by XRD showed that while the beta-Mo2C phase was obtained over activated carbon and over H-200, in contrast, MoOxCy was obtained over H400. These catalysts reached 100% conversion on formic acid decomposition at temperatures in the range of 190-250 degrees C and were also highly selective under these mild conditions, with values for CO2 selectivity in the range of 85.096.5%. The best results were achieved over a 10 wt% Mo loading on activated carbon that reached 96.5% selectivity to H-2. Also, changes in the molybdenum phases were observed on the spent catalyst. Some redox transformations during reaction were responsible for the transformation of beta-Mo2C into oxycarbide MoOxCy. In summary, the results of the catalytic performance indicated that the beta-Mo2C phase was more active, selective and stable than MoOxCy under the studied conditions..