We are glad to announce that Prof. Dr. Aubrey Mainza from University of Cape Town, will be holding a keynote presentation at IBPC Braunschweig 2023 with the title "Raw materials for battery production – opportunities and challenges". We are looking forward to hearing the keynote presentation. Do not miss his enlightening talk! #IBPC2023 #Batteries #conference2023 #sustainablemobility #supplychains #sustainability
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International Battery Production Conference (IBPC) 2023. The 6th edition of the IBPC took place in Braunschweig from 7 to 9 November. Due to the constantly growing programme, the conference was extended to three days for the first time. One highlight was the accompanying exhibition of almost 100 scientific posters. With 285 participants, 40 % of whom came from industry, the IBPC attracted visitors from over 15 countries. We hope you had a great time at the conference and that we can welcome you back next year when the 𝟳𝘁𝗵 𝗲𝗱𝗶𝘁𝗶𝗼𝗻 𝗼𝗳 𝗜𝗕𝗣𝗖 𝘄𝗶𝗹𝗹 𝘁𝗮𝗸𝗲 𝗽𝗹𝗮𝗰𝗲 𝗳𝗿𝗼𝗺 𝟮𝟳 𝘁𝗼 𝟮𝟵 𝗡𝗼𝘃𝗲𝗺𝗯𝗲𝗿 𝟮𝟬𝟮𝟰. #IBPC2023 #Batteries #automobiles #conference2023 #sustainablemobility #supplychains #sustainability
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Finally, the research in Nanoparticles won the Nobel Prize 2023. Maybe it can open your eyes to our solutions in HVAC, See more how Nanoparticles can reduce your energy consumption in closed heating and cooling systems with up to 30 %. https://lnkd.in/gRuFY2nS
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I'm thrilled to share that our latest research paper, titled "Optimal Placement of Locally Controlled Voltage Regulators in Traditional Distribution Systems Using the IMDE Algorithm," has been published in the prestigious Low Carbon Technologies Journal with an impressive impact factor of 2.3! As we continue to navigate the path toward a sustainable future, optimizing our distribution systems is more crucial than ever. This research dives deep into finding the optimal placement of locally controlled voltage regulators, leveraging the power of the IMDE algorithm to enhance the efficiency and reliability of our electrical grids. https://lnkd.in/dAc9UZFg #LowCarbonTechnologies #IMDEAlgorithm #Sustainability #Innovation
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Empowering Innovation | Bridging Academia & Industry | Fueling Growth Through Marketing | Lifelong Learner
🌟 Join me at ICPC-2023! 🌟 Excited to present my conference paper at the 3rd International Conference on Polymers and Composites (ICPC-2023)! 🚀 🔍 Dive deep into the world of polymer-based materials and explore the latest innovations, synthesis techniques, and sustainability aspects in this field. As industries evolve, polymers and composites continue to be at the forefront of technological advancements. 🌐 This conference is a unique platform bringing together international and national experts from academia, private organizations, suppliers, and end-users to discuss the future of polymers and composites. Join us in defining the capabilities of a global network focused on scientific discovery and exchange of views. 🎯 Conference Aims: Exchange knowledge and experiences among scientists, researchers, and industry professionals. Showcase recent innovations and practical solutions in polymer and composite materials. Address sustainability concerns and explore cutting-edge trends in these domains. 🤝 Looking forward to connecting with leading minds and exploring the endless possibilities of polymers and composites! See you at ICPC-2023! #ICPC2023 #Polymers #Composites #Sustainability #Innovation #Conference #Research #Science
3rd International Conference on Polymers and Composites
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Are you attending the BATTERY 2030+ annual conference in Grenoble, France, next week? - https://lnkd.in/eTstYggd As project coordinator, Martin Thomas Horsch from the NMBU - Norwegian University of Life Sciences will be representing the BatCAT - Battery Cell Assembly Twin project and will be giving and overview talk on the morning of 9 May 2024. The talk is entitled "BatCAT: Integrating physics-based modelling with logics and data driven methods into actionable modelling and decision support for battery manufacturing". Do come along and listen to what this project has planned and speak with Martin to learn more. #Battery2030 #PhysicsModelling #DataScience #Manufacturing
Programme
https://meetbattery2030.eu
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Solving Problems | Lab-Grown Diamonds | MPCVD Machines | Gems & Jewellery Counter | CVD Plates | Research Management
Can diamonds purify your heart? No, but Lab-Grown Diamonds can purify your water. Yes. You read that right. Boron Doped Diamond or simply BDD is the beacon of innovation in Waste Water management. Unlike their sparkly cousins, BDD is not transparent. BDD is made by doping LGD with a heavy dose of boron during the growth process. Due to the presence of Boron, BDD looks blackish or light brownish. BDD is manufactured using high-quality MPCVD equipment achieving the least to negligible amount of Nitrogen with 10¹⁹ to 10²¹ Boron atoms/cm³. They can come in many shapes or even coated over other materials for specific applications. When I learned about BDD a few months back, I was confused about the hype around them. I understood the reason behind the hype when I found that Water treatment is a multi-billion dollar industry. Apart from Water treatment, BDD has other applications too: Biosensing Food Safety Industrial Process Monitoring Medical Devices Element Six, Fraunhofer IAF and Kapindra Precision Engineering Private Limited are some of the companies that produce Lab Grown BDD commercially. Exciting research is happening around BDD across the world: A Dual Approach of an Oil–Membrane Composite and Boron-Doped Diamond Electrode to Mitigate Biofluid Interferences by Madeleine DeBrosse, Yuchan Yuan, Aleksandar Karajic - https://shorturl.at/zDEW2 Application of boron-doped diamond electrodes to electrochemical gas sensor by Yunita Triana, Genki Ogata, Yasuaki Einaga -https://shorturl.at/osU28 BDD electrodes scope of Commercialization: Long term potential across water treatment and sensor industries. Projects are already executed in real time. BDD's potential is vast, and the future looks bright. With continued research and development, lab-grown diamonds could become the cornerstone of a cleaner, healthier, and more sustainable future. One step at a time. ♻️ Repost: Be the 1st to inform your network. #cvd #cvddiamonds #mpcvd #hfcvd #lgd #labgrowndiamonds #technology #bdd #boron #electrodes #watertreatment #biosensing #technology #sustainability
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On 4th May 2023 we met to kick-off our EU-funded EIC Pathfinder Project reaCtor – „Fibre-Based Plasmonic Microreactor for Flow Chemistry“ at the Hannover Institute of Technology, Germany. In this 4-year project we will realize an innovative solution for reducing CO2 emissions in chemical industry. We will employ plasmonic nanoparticles in specialty optical fibres to efficiently transfer energy from photons to photochemical reactions. These microreactors will be microfluidically connected to enable flow chemistry. Since multiple of these reactors can be driven with only one light source, this approach enables a huge scale-up toward a sustainable chemical industry. We are very happy that our project is as interdisciplinary as it’s European: We are looking forward to the next steps with our partners from AMOLF (Wiebke Albrecht, Esther Alarcon Llado, Erik Garnett), University of Amsterdam (Timothy Noel, Elia Savino), Universidad de La Laguna (Airán Ródenas), Lukasiewicz Institute (Ryszard Buczynski), EurA AG (Susann Spindler), and Leibniz University Hannover (Michael Steinke, Simon Spelthann). #innovation, #fibers, #microreactors, #sustainablity, #collaboration
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RWTH Aachen University and VDMA just published the following white paper on, "Production of Lithium-ion Battery Cell Components (https://lnkd.in/eWn5VSqN) Important properties to improve the energy density, safety, and cycle life for #transporation, #electricvehicles, #emobility, and #energystorage include surface area, porosity, density, and powder flow for the majority of the #battery #technology discussed. Find more information on the analytical equipment that can help improve each of these key components: https://lnkd.in/dhq-Yy-u.
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