1. Overview of the results
The experimental evidences show a direct route for the formation of propene from ethene, achieved via dimerization and metathesis reactions. This has been achieved using novel catalysts and characterization spectroscopic methods. Moreover, developed catalysts and reaction conditions allowed to develop new reaction engineering concepts, which lead to very stable catalyst performance and opens new research opportunities in the field of heterogeneous catalysis. The following sections provide details for each specific task:
a. Dimerization reactions using alkenes
- Synthesis of nickel exchanged sites on H+ sites on MCM-41
- Stabilization of active Ni sites at subambient temperatures and in the presence of hydrocarbon mixtures
- Unprecedented Ni site reactivity compared to reported Ni-based heterogeneous and homogeneous catalysts
- Linear increase of dimerization rates with Ni to H+ ratio
- Identification of kinetically relevant isolated Ni sites exchanged at stoichiometric quantities, also identified using selective titrants
- Accurate description of reaction kinetics using transition state formalisms in non-ideal media
- Unprecedented primary 1-alkene and dimer selectivity obtained at subambient temperatures compared to >400K
- Preparation of microreactors
- Catalysts characterization and comparison to state-of-the-art
- Proof of concept using more complex organometallic compounds
b. Metathesis reactions with propene
- Enhanced metathesis reactivity through controlled Mo site activation at high temperature
- Linear relationship with metathesis rates and Mo content
- Enhanced stability under zero-order reaction kinetics, deactivation under empty surface Mo sites
2. Exploitation and dissemination of results
The scientific results have been disseminated through 3 different channels:
a. Publications, so far published in 2 articles and 2 more in preparation. Especially the article in Journal of Catalysis (2017) represents a landmark showing new reaction engineering concepts.
b. Dissemination in scientific conferences (North American Catalysis Society, Denver, USA and European Catalysis Society, Florence, Italy) and invited lectures (American Chemical Society conference 2018 and Haldor Topsoe, Denmark, 2018). This allowed to expose the results to researchers in the field of catalysis and chemical engineering, which has definitely allowed to open new research lines and projects. Indeed, the results obtained in this work allowed to apply for a EU consortium project (call CE-NMBP-24-2018, with an objective for Circular Economy) involving 12 international partners.
c. Outreach articles (at University magazines) and activities (with students in Chemical Engineering, training sessions) allowed to expose the results to the open public and socialize on the importance of catalysis and science in our society.