Research group of catalysis

To sustain life and its quality on Earth, the EU has established several initiatives for the implementation of the Green Deal: Zero Pollution Action Plan, Farm to Fork and Green Deal Industrial Plan, among many others. All of these require significant innovation, based on new knowledge and skills – research, training and education – coupled with industry adaptation, civil society engagement and smart regulation, which is a challenge globally. More importantly, we need significantly more people who can carry out this innovation. The main objective of “Innovative Chemistry and Biotechnology for a Sustainable Future” (INNOCHEMBIO) is to train future experts of sustainable chemistry and biotechnology, helping Europe to take the next steps in the green transition. The solutions and trained experts can reduce the environmental impact of the chemical and agricultural industries, offer eco-friendly analytical techniques, and assess the safety of new materials. This will be achieved through interdisciplinary research projects in an international research environment, collaboration with the industry, the public sector and the civil society, via a comprehensive quadruple-helix based training programme. As a result, our graduates will not only become experts in their respective fields, but leaders and spokespersons. Eventually, through dedicated career planning, we provide skilled workforce to all 4 sectors of the helix. INNOCHEMBIO is an international consortium led by TalTech, with over 100 years of experience in chemistry and biotechnology research and training. INNOCHEMBIO will achieve its objectives by recruiting 15 PhD candidates in up to two calls offering fellowships for 48 months. During this period, the candidates will receive discipline specific training both in Estonia and abroad by working on their research project; broader training through courses offered at TalTech and by our partners; and experience working in the private sector.

The infrastructure brings together the capabilities in chemical synthesis, chemical and biotechnology in Estonia. Its primary goal is the development and technologization of new sustainable and environmentally friendly synthesis methods, such as mechanosynthesis, flow chemistry, electrochemistry, photochemistry, and organocatalysis. New chemical methods (using enzymes, ionic liquids, and metal-organic frameworks) creates new opportunities for obtaining complex natural compounds. To ensure the sustainability of methods and materials, safety studies are conducted. The shared use of the infrastructure initiates new interdisciplinary projects and creates prerequisites for innovation and collaboration with research-intensive companies. Involving the use of infrastructure at all levels of higher education and in micro-degree programs ensures continuity in science and a qualified personnel for entrepreneurship.

The project deals with the development of sustainable methods of asymmetric catalysis and their application in the synthesis of biologically relevant compounds. Various methods of catalysis (organo-, metal- and enzymatic catalysis) will be used separately or in cooperative manner. Special attention will be turned to the increase of efficiency of reactions by using selective catalysts, cascade or one-pot reactions. As a new method, a halogen bond donor catalyzed asymmetric reactions will be studied. New reactions will be applied on the synthesis of biologically active compounds and their derivatives. As a result, new asymmetric catalytic sustainable methods for the creating molecular complexity will be developed. Principles of green chemistry will take root in science, in the mode of thinking of PhD students and by PhD graduates in Estonian chemistry enterprises.