The 6 tasks present in the proposal have been fullfilled and are described in detail in the scientific report. Task 1 ("Monitoring and optimization of methanation at the surface of complex nanoparticles") and Task 2 (Optimization of heating capacities of magnetic nano-objects and energy efficiency) led to the construction of a pilot in collaboration with Téréga for the enrichment of biogas into methane and to a collaboration with GRDF to enrich wastewater plant gas into methane. Task 3 (Real-time temperature and heating power monitoring) proposed different alternatives for the monitoring of the real temperature at the surface of magnetically heated nanoparticles and for the electronic control of the catalytic process and allowed to demonstrate the presence of very high temperatures at the surface of magnetically heated nanoparticles, even in solution iin low boiling point solvents. Together with Task 2, Task 3 led to a collaboration with an industrial of electromagnetic coils (ID-Partner) to develop commercial set-up for magnetic catalysis. A thesis is starting in collaboration on this subject. Task 4 proved deceiving, the heating capacity of plasmonic materials being found too low for catalysis although one paper was published. Task 5 led to the preparation of a variety of complex materials displaying various Curie temperature and hence allowing optimization of the methanation catalyst (FeNi3@Ni) as well as different reactions including propane dehydrogenation and methane dry reforming using e.g. FeCo nanoparticles. This research permitted to develop new catalysts for unprecedented reactions such as the selective transformation of waste plastics into methane, aromatic and unsaturated molecules (close to Diesel) or into linear saturated hydrocarbons (close to kerosene).
Task 6 led to unprecedented reactions such as hydrodeoxygenation of biomass platform molecules in solution. These results were at the origin of two research contracts and to a proposal of collaboration within an international ANR program. Finally the results of Monacat inspired an ANR program on electrochemistry which was funded, a research contract on hydrogen storage and two projects in discussion with two other industrial partners.
Overall the results of Monacat produced so far 32 publications, 2 patents, 7 publications which are directly related to Monacat but do not involve temporary personnel paid by Monacat and over 10 papers in which Monacat will be acknowledged to be published within the next year. Furthermore Monacat raised an academic and industrial interest. Concerning the academic part, proposals of collaborations on magnetic catalysis originated from leading catalysis and nanoscience institutions in Germany, Italy, Spain and france. Concerning the industrial part this led to collaborations and contracts with 4 major industrial companies and two SMEs.