As opposed to the current state of the art, the main achievement made in the D-Carbonize project thus far is the reuse of various biocarbon precursors and their transformation into new monomers, polymers and functional materials enabled through catalysis approaches. The combined approach has resulted in defining the contours of a new value chain that is characterized by a lower carbon footprint supporting the initial hypotheses and expectations. As such, the catalytic processes offer a realistic footmark technology allowing for potential use within and transfer to commercial laboratories, implementation and scale up. More specifically, these lower-carbon emission processes offer a new paradigm shift where fossil-fuel derived products and processes can be challenged by those based on biobased sources offering leverage to partially or even fully replace them and creating synergies between green chemistry principles and new business opportunities arising from the results. For instance, coating type materials have already been forged from biomass using homogeneous catalysis, with the final products demonstrating both thermal and mechanical properties that are at least similar to current commercial coatings. While this initial validation is promising, further research is required to understand in more detail how favorable the new technologies are in terms of carbon footprint, practicality, scaling and adaptivity.
The D-carbonize will organize during the second stage of its development 12 industrial internships at various companies. The latter are involved in or developing materials that depend currently on fossil-fuel technologies. The planned secondments will help to validate as much as possible the findings of the project in more relevant settings. Apart from these secondments, the industrial partners will assist in the scale up of developed technologies and performing, where applicable, life-cycle analysis and techno-economic assessments to create a full picture of the potential of the catalytic processes discovered and developed.