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"Congratulations to Dr. Raja S, Dr. Ramachandra Murthy V, and Mr. Rajesh J for the publication of your research titled 'Efficient Adsorption of Cr (VI) onto Hematite Nanoparticles: ANN, ANFIS Modelling, Isotherm, Kinetic, Thermodynamic Studies and Mechanistic Insights' in Chemosphere. Published nationally in February 2024, this work delves into advanced techniques for chromium adsorption, offering both experimental and computational perspectives. A significant contribution to environmental engineering. Well-done. #Research #ChromiumAdsorption #EnvironmentalEngineering #HematiteNanoparticles #ANN #ANFIS #NationalPublication #ChemicalEngineering #Biotechnology DOI: 10.1016/j.chemosphere.2023.140731

Don't miss "MXenes: Changing the World," the 3rd International #MXene #Conference at #Drexel University, this August! Join leading experts to explore groundbreaking research, industry collaborations, and the future of these revolutionary two-dimensional materials. Secure your spot: https://ow.ly/Fc2l50SBIMl #theelectrochemicalsociety #scienceandtechnology #electrochemistry

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

Our study, in collaboration with Utrecht University, on Methane Dry Reforming (MDR) has been published and featured on the cover of Angewandte Chemie Int. Ed. 🔬 By integrating operando-Raman spectroscopy in an annular reactor at Politecnico di Milano and Photo-induced Force Microscopy (PiFM) at Utrecht University, we found that carbon deposition on Rh/α-Al2O3 catalysts follows a nucleation-growth mechanism. This research reconciles conflicting reports in the literature and provides a deeper understanding of carbon deposition’s impact on MDR reaction kinetics. 🔍 Key findings: - The spatiotemporal development of carbon aggregates on the catalyst surface is highly dependent on the CO2/CH4 ratio and CH4 concentration. - The influence of CO2 on MDR kinetics is largely indirect, revealing how carbon accumulation over time affects catalytic performance on a longer timescale than the TOF. 📖 Link to the paper: https://lnkd.in/dz38JUPM Riccardo Colombo Gianluca Moroni Chiara Negri Guusje Delen Matteo Monai Alessandro Donazzi Bert Weckhuysen Matteo Maestri NEST - Network 4 Energy Sustainable Transition European Research Council (ERC) #Catalysis #MethaneDryReforming #CarbonDeposition #RamanSpectroscopy #SustainableEnergy #CatalysisResearch #CO2Utilization #ChemicalEngineering Cover design: Lia Tagliavini

What limits #Biohybrid #Photovoltaics from reaching their full potential? My recent paper published by Elsevier (Current Opinion in Electrochemistry) explores this question, shedding light on efficiency bottlenecks. While biohybrid photovoltaics, which utilize photosynthetic proteins like reaction centres, hold immense promise, our research identifies poor wiring as a major barrier to improving performance. This open-access paper is a part of the special issue "Bioelectrochemistry" edited by Prof. Dr Julea Butt. I had a wonderful time working on this paper, with Dr Rafał Białek and Dr Vincent M. Friebe, and you can check out the paper here: https://lnkd.in/dRWnVyuC #Bioelectrochemistry #Electrochemistry #ScientificResearch #Sustainability #Collaboration #OpenAccess #Biotechnology #Innovation

Bionics studies natural phenomena and processes to create efficient engineering designs, applying evolutionary solutions from biology to technology to optimise resource use and achieve effective results in technical applications. Bionics is woven into our design process, discover more here: https://ow.ly/epzO50TavYf #ZiehlAbegg #AxialFans #CentrifugalFans #DriveTechnology #ControlTechnology #VentilationTechnology #RoyalLeague

Last chance to register for our upcoming webinar on how High Throughput Experimentation (HTE) is revolutionizing the way we develop materials, especially in the energy sector! You will hear insights from Dr. John Gregoire and Aaike van Vugt, two pioneers in advanced material development, regarding emerging technologies that support HTE workflows and the next frontier in materials science — Self-Driving Labs. Reserve your spot for the webinar to learn how HTE accelerates the discovery and optimization of new energy materials: https://ow.ly/2e8p50SpkWH #nanomaterials #materialdevelopment #materialsscience #greenenergy #catalysts #nanoparticles #nanoporousfilms #NanoscienceInstruments VSPARTICLE

Florida State University researchers, led by Professor Biwu Ma, are revolutionizing technology with hybrid materials called organic metal halide hybrids (OMHHs). These eco-friendly, cost-effective materials are paving the way for advancements in LEDs, X-ray scintillators, and direct X-ray detectors. With applications spanning medical imaging, security, and renewable energy, Ma’s work demonstrates the potential to outperform traditional materials while reducing costs and environmental impact. Supported by National Science Foundation (NSF) funding and industry collaborations, Ma’s team is driving innovation and bridging the gap between groundbreaking research and real-world applications. Their vision positions OMHHs as a versatile platform for the next generation of transformative technologies. https://lnkd.in/gvzP_W86 #MaterialsScience #Physics #IP #Patents #VC #DeepTech

🔬 Exciting new research sheds light on Thermally Activated Electrolytes (TAEs) in slit channels. Our latest study delves into the intricate thermoelectric response of these electrolytes, revealing competing mechanisms driving charge transport through temperature gradients. With a focus on understanding the activation energy governing charge carriers, the research uncovers a remarkable giant thermoelectric response. This discovery holds promise for explaining recent experimental results in nanoporous media infiltrated with TAEs. Stay tuned for insights into the fascinating world of thermoelectrics! 🧪⚡️ Authors: Rajkumar Sarma and Steffen Hardt Partner university: Technische Universität Darmstadt #Research #Thermoelectrics #Electrochemistry #wasteheatrecovery #wasteheat #greenenergy #TRANSLATEenergy

Here is out our new #work on a #sustainable approach for the #valorization of #pyrolysis char from residual #biomass as platform #biomaterial for the #industry. In this work in collaboration with the Department of #Chemical Science and Technology of the Università di Roma Tor Vergata, we investigate the interplay of pyrolysis process and #superficial #morphology on the #electrochemical performance of #biochar for #biosensing. A significant #impact of the process temperature and thermal post-treatment of the biochar on the electrochemical performance and superficial morphology were found! In the next steps we will find to understand how to further #tune the performance of bio-based screen-printed electrodes through process/post-process optimization, assessing the real #CO2 #emission #saving for this circular approach!