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Research to Read: Bio4MatPro Scientific Publications

OverviewTitle/AuthorsDOI-LinkMagazineYearBoostLab
ThumbnailOvercoming a Conceptual Limitation of Industrial ε-Caprolactone Production via Chemoenzymatic Synthesis in Organic MediumBoostLab 1-2 is introducing a new and efficient method for the industrial production of ε-caprolactone.L. M.Bernhard, H.Grögerhttps://doi.org/10.1002/cssc.202400073 ChemSus Chem2024BoostLab 1-2
Thumbnail Paper Boostlab 1_5Biotechnological polyphosphate as an opportunity to contribute to the circularization of the phosphate economyBoostLab 1-5 examines the potential applications of biotechnologically produced polyphosphate in the economy.P. Demling, M. Baier, A. Deitert, J. Fees, L. M. Blankhttps://doi.org/10.1016/j.copbio.2024.103107 Curr. Opin. Biotechnol.2024BoostLab 1-5
ThumbnailMechanoresponsive Carbamoyloximes for the Activation of Secondary Amines in PolymersBoostlab 2-2 demonstrates that carbamoylaldoximes act as mechanophores to activate secondary amines. D. Campagna, R. Göstlhttps://doi.org/10.1002/anie.202207557 Angew. Chem.2022BoostLab 2-2
ThumbnailFracture Detection in Bio-Glues with Fluorescent-Protein-Based Optical Force Probes BoostLab 2-2 developed a method for detecting breaks in adhesives using fluorescent proteins.Y. Zhou, S. P. Centeno, K. Zhang, L. Zheng, R. Göstl, A. Herrmannhttps://doi.org/10.1002/adma.202210052Advanced Materials2023BoostLab 2-2
ThumbnailLeveraging mechanochemistry for sustainable polymer degradationAs part of the Bio4MatPro project, Boostlab 2-2 is conducting research into potential applications of polymer mechanochemistry.S. Aydonat, A. H. Hergesell, C. L. Seitzinger, R. Lennarz, G. Chang, C. Sievers, J. Meisner, I. Vollmer, R. Göstlhttps://doi.org/10.1038/s41428-023-00863-9Polymer Journal2024BoostLab 2-2
ThumbnailAccelerated Mechanochemical Bond Scission and Stabilization against Heat and Light in Carbamoyloxime MechanophoresAs part of the Bio4MatPro project, Boostlab 2-2 is conducting research on the cleavage properties of mechanophores.S. Aydonat, D. Campagna, S. Kumar, S. Storch, T. Neudecker, R. Göstlhttps://doi.org/10.1021/jacs.4c13319Journal of the American Chemical Society2024BoostLab 2-2
ThumbnailMechanochemical generation of nitrogen-centred radicals for the formation of tertiary amines in polymersAs part of the Bio4MatPro project, Boostlab 2-2 is conducting research into the potential applications of mechanochemistry in polymer formation.S. Storch, D. Campagna, S. Aydonat, R. Göstlhttps://doi.org/10.1039/D4MR00099DRSC Mechanochemistry2025BoostLab 2-2
ThumbnailEfficient, Functional Group-Tolerant, and Catalyst-Free Nitrile Formation from AldehydesAs part of the Bio4MatPro project, Boostlab 2-2 is researching an effective method for producing nitriles without using toxic cyanide.S. Aydonat, D. Campagna, R. Göstlhttps://doi.org/10.1002/chem.202502629Chemistry Europe2025BoostLab 2-2
ThumbnailInvestigation of the potential of dipping as a technology for bifunctional assemblies as a coating materialAs part of the Bio4MatPro project, Boostlab 3 is conducting research on innovative, bio-based coatings.F. Yang, H. El Kadaoui, J. Gebauer, D. D. Akolpoglu Basaran, L. Stauder, S. Barth, T. Bergs, U. Schwaneberghttps://doi.org/10.1016/j.procir.2023.09.248Procedia CIRP2024BoostLab 3
ThumbnailSurface-confined enzymatic method for scalable thin film generationAs part of the Bio4MatPro project, Boostlab 3 is conducting research on innovative, bio-based coatings.C. Nenninger, F. Contreras, M. Vorobii, M. Sárria Pereira de Passos, J. Gebauer, M. Nöth, L. Stütgens, H. El Kadaoui, T. Bergs, U. Schwaneberghttps://doi.org/10.1016/j.surfin.2025.106046Surfaces and Interfaces2025BoostLab 3
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