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  • Borge, L., Bröring, S. (2018). What affects technology transfer in emerging knowledge areas? A multi-stakeholder concept mapping study in the bioeconomy, Journal of Technology Transfer, Link.

  • Sick, N., Preschitschek, N., Leker, J., Bröring, S. (2018). A new framework to assess industry convergence in high technology environments. Technovation. Link

  • Dahabieh, M.S., Bröring, S., Maine E. (2018). Overcoming barriers to innovation in food and agricultural biotechnology. Trends in Food Science & Technology, 79: 204-213. Link

  • Berg, S., Wustmans, M. Bröring, S. (2018). Identifying first signals of emerging dominance in a technoogical innovation system: A novel approach based on patents. Technological Forecasting and Social Change. Link

  • Berg, S., Cloutier, L.M. Bröring, S. (2018). Collective stakeholder representations and perceptions of drivers of novel biomass-based value chains. Journal of Cleaner Production, 200: 231-241. Link

  • Sick, N., Bröring, S., Figgemeier, E. (2018). Start-ups as technology life cycle indicator for the early stage of application: An analysis of the battery value chain. Journal of Cleaner Production, 201: 325-333. Link

  • Kamrath, C., Rajendran, S., Nenguwo, N., Afari-Sefa, V., Bröring, S. (2018). Adoption behavior of market traders: An analysis based on technology acceptance model and theory of planned behaviour. International Food and Agribusiness Management Review, 21(6): 771-790. Link

  • Sick, N., Bröring, S. (2018). Anticipating Industry Convergence in the Context of Industry 4.0. PICMET '18 Conference, "Managing Technological Entrepreneurship: The Engine for Economic Growth", USA.Related information
  • Carraresi, L., Berg, S., Bröring, S. (2018). Emerging value chains within the bio-economy: structural changes in the case of phosphate. Journal of Cleaner Production, 183: 87-101. Link
  • Baum, C. M., Gross, C. (2017): Developing behavior-informed strategies for climate and sustainability policy.Journal of Bioeconomics Special Issue “Transition to Sustainable Economy” 19(1)53-95.
  • Borge, L., Bröring, S. (2017): Exploring effectiveness of technology transfer in interdisciplinary settings- The case of the bioeconomyCreativity and Innovation Management Journal.
  • Bröring, S., Wensing, J. (2017): Functional Ingredients: Market Research. (forthcoming), in: Kirk-Othmer encyclopedia of chemical technology.
  • Butkowski, O., Pakseresht, A., Lagerkvist, C., Bröring, S. (2017): Debunking the Myth of General Consumer Rejection of Green Genetic Engineering: Empirical Evidence from Germany.International Journal of Consumer Studies.
  • Berg, S., Kircher, M., Preschitschek, N., Bröring, S., Schurr, U. (2017): Die Bioökonomie als Kreislauf und Verbundsystem, in: Pietzsch, J Bioökonomie für Einsteiger141-160Springer Spektrum.
  • Bröring, S., Baum, C. M., Butkowski, O., Kircher, M. (2017): Kriterien für den Erfolg der Bioökonomie., in: In J. Pietszch (Ed.), Bioökonomie für Einsteiger161-177Springer Spektrum.
  • Tiso, T., Thies, S., Müller, M., Tsvetanova, L., Carraresi, L., Bröring, S., Jaeger, K.-E., Blank, L. M. (2017): Rhamnolipids: Production, Performance, and Application, in Consequences of Microbial Interactions with Hydrocarbons, Oils, and Lipids: Production of Fuels and Chemicals (Edited by Sang Yup Lee)1-37Springer International PublishingLink.
 
You are here: Home Research Combinatorial creation of structural diversity for novel high-value compounds

Combinatorial creation of structural diversity for novel high-value compounds

Acronym: COMBICOM

Timespan: 5.2017 – 4.2020

 

Natural products represent an invaluable source of bioactive compounds. They can serve as chemical frameworks for developing new agrochemicals and pharmaceuticals that are urgently needed to meet the growing demands of modern society. Reinforcing the change of paradigm from synthetic chemistry to sustainable microbial production, CombiCom will thus exploit secondary metabolite pathways to deliver natural compounds and further extend these structures by exploring the non-natural chemical space beyond. We will pursue an integrated approach by joining forces of experts in biology, chemistry and engineering to create synthetic biology-tailored microbial chassis allowing for the sustainable production of novel high-value compounds, which will be evaluated for their anti-phytopathogenic activity and pharmaceutical potential. This endeavor will be accompanied by the assessment of related socioeconomic implications, aiming to evaluate and optimize the market introduction potential of synthetic biology associated products.

CombiCom_DE.png

Figure 1: Combinatorial synthesis of novel high-value compounds

 

In this framework, the TIM Chair group (Research Area 3) contributes to the CombiCom project through its work in WP9 (and WU4) on the following research goals:

 

Investigation of socioeconomic implications of synthetic biology-driven innovations.

  • Explores overall acceptance of synthetic biology, focusing on the current perceptions and challenges that are envisioned for the expected technologies
  • Utilize risk-perceptions studies to understand decision-making processes for emerging technologies
  • Identifies key barriers and success factors for market introduction novel of high-value compounds
  • Elaborates more effective messaging strategies to promote knowledge transfer and cultivate public understanding in this domain

 

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Figure 2: Project design

 

Contact 
Dr. Chad M. Baum
Institute for Food and Resource Economics
Chair for Technology and Innovation Management in Agribusiness
Phone: +49-(0)228-73-35 3552

E-mail: ch.baum@ilr.uni-bonn.de

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