The Fermentation Based Biomanufacturing Initiative’s Post

👉TooCOLD will be ConSOLIDATe(d)! 👈Today, Prof. Maarten van Bommel and team have been awarded funding of 900,000 euros for their project 'Controlled Study Of Light Induced Degradation by Advancing Technology', or #ConSOLIDATe. It is the follow-up of the successful #TooCOLD project in which a toolbox for studying the chemistry of light-induced degradation was developed. ConSOLIDATe will combine advanced analytical instrumentation, light-exposure technology and sophisticated data-analysis techniques to provide fundamental insights into the light-degradation mechanisms of essential compounds in various materials. Van Bommel coordinates the project that also involves Saer Samanipour, Bob Pirok, Govert Somsen and Freek Ariese, and institutes and companies such as AstraZeneca, AkzoNobel, KWR Water Research Institute and Rijksdienst voor het Cultureel Erfgoed. The funding was awarded by NWO (Nederlandse Organisatie voor Wetenschappelijk Onderzoek) through the Open Technology Programme of the Domain Applied and Engineering Sciences. Read more about the project: https://lnkd.in/gQsDsJJz

Exciting News! In just two weeks, we’ll be kicking off our HorizonDECADES board and consortium meeting at the University of Groningen, hosted by Prof. Marco Fraaije! Our agenda is packed with valuable content and opportunities for connection. Over the first two days, we’ll dive into board meetings and engage in presentations from our PhD students, who’ll share the results of their recent research. Starting on the afternoon of Day 2, we shift focus to an in-depth lecture series, beginning with data-driven directed evolution of enzymes. The learning continues on Day 3 with inspiring talks on the digitalization of bioprocesses, rational protein design, and innovative methods for racemate resolution via crystallization. These sessions are designed to boost our skills and open new possibilities in our fields! And the lectures don’t stop there—we’re also adding hands-on computational protein engineering training and workshops for scientific presentations…but we won’t reveal too much just yet! It’s not all about hard work—we also have a fun excursion planned for Day 5! Plus, lunches and dinners together will be a perfect chance to unwind and strengthen our connections. Looking forward to the week ahead and everything we’ll accomplish together! #MSCA #HorizonDECADES #REA #ResearchImpactEU #H2021 #Research #Innovation #DES #Catalysts #Sustainability #biocatalysis #Science #PhDLife #DeepEutecticSolvents #DES #EU #HorizonEurope #Networking #ScienceAndInnovation #Groningen

Research teams from UGA New Materials Institute will lead or co-lead 8 projects in 2025 for the Center for Bioplastics and Biocomposites, or CB2. The research consortium is funded in part by the National Science Foundation (NSF). Read more: https://lnkd.in/eamQQxPu

@MultiBac 1.0 (1st International Conference on Emergent Functions of Bacterial Multicellularity) Arrays of emerging multicellular functions confluenced in unison at the 'German Oxford' this new year! Focused on the transitions from unicellular to multicellular systems, the deliberations brought together an interesting collection of research presentations including: a. Plant bacteriology b. Sociological development and mimicked urban architecture c. Interactive human microbiomes d. Nanoscale bacterial biofilms and its imaging e. Transport models for active fluid interactions f. Microfluidic tools for environmental cues g. Programmable cellular functions h. Predators as ecological factors i. Ionic competition for cell mechanics j. Applications to antimicrobial resistance The presentation derived from some of my current research work funded through European Research Council (ERC) at University College Dublin (UCD School of Chemical & Bioprocess Engineering), contributed to reinvigorating various ideas on environmental cues inside bacterial biofilms. As part of our Adv ERC ABSOLUTE project team, these emergent multicellular functions for the real World applications likely point toward further research directions. #biochemistry #biofilmengineering #SDG #cleanwater #healthcare #SPP2389 (Technische Universität Dresden)

A DTU research project is among the first projects that the Novo Nordisk Foundation and the Danish Centre for AI Innovation (DCAI), have selected to gain access to the AI supercomputer ‘Gefion’. The project will map the dynamics of enzymes and develop enzymes that can convert CO2 into sustainable fuels and chemicals. The fact that DTU is one of the first universities to gain access to the supercomputer emphasizes the university's vision of making a positive difference to society and the green transition, states Christine Nellemann, Dean of Sustainability, Diversity, Inclusion and International Collaborations at DTU. In the future, using enzymes to convert captured CO2 could be a sustainable and efficient supplement to the man-made power-to-X processes we use today. "Access to Gefion will allow us to study a class of very interesting enzymes that can convert CO2 into sustainable fuels and chemicals. This can be done with unprecedented accuracy and speed, allowing us to identify new, efficient enzymes for converting CO2 into sustainable fuels such as methanol," says DTU Professor Tejs Vegge and Director of the Pioneer Center CAPeX. Read more https://l.dtu.dk/3zYBNp2 Læs mere https://l.dtu.dk/3YkE59N Photo: Novo Nordisk Foundation #DTUdk #TechnologyForPeople #Engineering #Sustainability #Innovation #DigitalTransformation #ArtificialIntelligence #GreenTransformation

🎊We are thrilled to announce that Dr. Martin Koller has been appointed as the Section Editor-in-Chief for the 'Biochemical Engineering' section of our journal Bioengineering. The current Editorial Board of the 'Biochemical Engineering' section can be found at 👉 https://lnkd.in/gVd4dtsa   🥼 Dr. Martin Koller was awarded his Ph.D. degree by Graz University of Technology, Austria, for his thesis on polyhydroxyalkanoate (PHA) production from dairy surplus streams. This work was carried out as part of the EU-FP5 financed project, WHEYPOL (“Dairy industry waste as source for sustainable polymeric material production”), and was supervised by Gerhart Braunegg, one of the most eminent PHA pioneers. As a senior researcher, he worked on biomediated PHA production, encompassing the development of continuous and discontinuous fermentation processes and novel downstream processing techniques for sustainable PHA recovery. His research focused on cost-efficient PHA production from surplus materials using bacteria and haloarchaea and, to a minor extent, on the development of PHA for biomedical use.   🎉He led a successful series of Special Issues on "Advances in the Production of Polyhydroxyalkanoates (PHA)" which is now in its fourth edition: https://lnkd.in/gzWxXu23   🔬He currently holds more than 90 Web of Science listed articles in high-ranked scientific journals (h-index 40), has authored more than 20 chapters in scientific books, edited eight scientific books and seven journal Special Issues on PHA, delivered plenty of invited and plenary lectures at scientific conferences, and continues to support the editorial teams of several distinguished journals. One of his publications in our journal "A New Wave of Industrialization of PHA Biopolyesters" has garnered significant attention and received numerous citations: https://lnkd.in/dpv-X-_W   👏 Dr. Koller brings a wealth of knowledge and experience to this role, and we are excited to see the innovative contributions he will bring to the field. #Bioengineering #BiochemicalEngineering #Editor_in_Chief

Breaking Boundaries in Organic Photodetectors: High-Performance Single-Component Devices ⚡ A research team at TUD Dresden University of Technology has developed an innovative organic photodetector (OPD) with a simplified structure and outstanding performance. The breakthrough lies in the use of a single material in the photoactive layer - an approach that enables faster and more cost-effective industrial production without compromising on sensitivity. The results have now been published in the renowned journal “Advanced Materials”. Further info ➡️ https://lnkd.in/drDxWqwk #TUDresden

#ResearchOpportunities At the Bioelectrochemistry Lab of the Biochemical Process Engineering research group at Luleå University of Technology (LTU), we are dedicated to advancing sustainable solutions for plastic waste. Through cutting-edge research, we are exploring the use bioelectrochemical systems for upcycling of complex post-consumer PET plastics and microplastics. This emerging research field is supported by two Vetenskapsrådet (VR)-funded projects: UPSCALE (Upcycling of PET waste using bioelectrochemical systems – PI: Ulrika Rova) and 2nd UpChance (A second chance for Upcycling of Microplastics – PI: Paul Christakopoulos). To further leverage the potential of this research field, we are excited to announce that our application for a postdoc fellowship on “Bioelectrochemical approach of PET plastics and microplastics degradation” was recently approved by the Kempe Foundation (www.kempe.com). We will soon open a postdoc fellowship and a PhD position. Are you interested in joining our dynamic and international research environment and contributing to cutting-edge research in one of the most critical fields for advancing a circular economy and a sustainable future? Stay tuned for more details! #ResearchOpportunity #Sustainability #Bioelectrochemistry #PlasticsUpcycling #LTU

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Congratulations to Prof. Georgios Kontogeorgis and his team Xiaodong Liang, André Vinhal, Nefeli Novak and Olivia Perederic! The European Research Council (ERC) has awarded them an ERC Proof of Concept Grant. ERC recognizes the excellent research developed during Prof. Georgios M. Kontogeorgis’ ERC Advanced Grant project "New Paradigm in Electrolyte Thermodynamics", and the grant will help him and his team to enable the progress from ground-breaking research towards innovation. The new project “Modern Equation of State for Electrolytes – ElectroSAFT” aims to develop and make available in various forms an equation of state for electrolyte solutions, eSAFT-VR Mie. Electrolyte solutions are found in many applications from CO2 capture to biotechnology and pharmaceutical industry. The developed model can be applied across a wide range of temperatures, pressures, and solvents, solving the problems of currently used models in industry and research for systems involving electrolytes. The aim is to integrate the model into a user-friendly tool featuring a Guided User Interface (GUI) and a user model interface for commercial simulators, allowing the non-expert user to apply the model in day-to-day work. At the end of the project, the tool will be available to the two industrial consortia: CERE and KT Consortium. This strategy will facilitate wider distribution and testing, thereby promoting the development of a robust tool relevant, but not limited to industry and academia. #dtu #ERCPoC #research #innovation #technologyforpeople #chemicalengineering