Our team's latest paper, titled "Photoelectrocatalytic Hydrogen Generation: Current Advances in Materials and Operando Characterization," explores the cutting-edge advancements in materials and techniques for clean hydrogen production. This review paves the way for designing more efficient and durable photoelectrodes for green hydrogen generation. It also explores and emphasizes the importance of operando characterization techniques to understand reaction mechanisms and degradation pathways. Read more in our paper published in Global Challenges by Wiley! #hydrogen #renewableenergy #materialscience #PEC #greenhydrogen https://lnkd.in/d8-AqYqt Mohammed Ahmed Zabara Burak Ölmez Merve B. Begum Yarar Kaplan Ahmet Can Kırlıoğlu Selmiye Alkan Gürsel Prof. Mihri Ozkan Cengiz Ozkan Sabanci University Sabancı University Faculty of Engineering and Natural Sciences University of California, Riverside
Alp Yürüm, Ph.D.’s Post
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A paper published in Hydrogen discusses ways to use hydrogen as a cleaner and more sustainable energy source as an alternative to carbon-based energy. As mentioned in Forbes, the paper focuses on recent advances in using nanomaterials to improve the production of hydrogen, with a particular emphasis on controlling the physical and chemical features of these materials at a sub-nano or atomic scale. The goal is to optimise performance and design efficient nanocatalysts for hydrogen production. Read more about this research: https://brnw.ch/21wG9sA or view the news story: https://brnw.ch/21wG9sC #openaccess #openscience #hydrogenenergy
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We're delighted to share that Bianca Grabner, will take the stage as a distinguished speaker at the eagerly awaited Positioning Hydrogen 2023 Conference. Be sure to save the dates from November 27th to 29th, 2023, for this exceptional event hosted at the renowned Crowne Plaza Melbourne, Australia . Dr. Bianca Grabner, a distinguished researcher and project manager at HyCentA Research GmbH, the first Austrian research center for hydrogen. Dr. Grabner has made significant contributions to the field of hydrogen production technologies, with a particular focus on electrolysis, innovative hydrogen production methods, simulation, and testing. With a career spanning over three years as a university assistant at the Institute of Process and Particle Engineering, Graz University of Technology, Dr. Grabner has acquired extensive expertise in the field of chemical and process engineering. Her doctoral studies in Chemical and Process Engineering, which she successfully completed with distinction, further enhance her knowledge and qualifications. Dr. Grabner's research interests and expertise lie in various aspects of hydrogen production technologies, ranging from electrolysis techniques such as AEL, AEM, PEM, and SOEC, to exploring innovative methods like photoelectrolysis. She has conducted research on both single cell components and large-scale MW-systems, contributing to advancements in hydrogen production efficiency and sustainability. Let's shape a sustainable future together! #PositioningHydrogen2023 #HydrogenEconomy #hydrogenstorage #EnergyIndependence #RenewableResources #EnergyStorage #GreenEconomy #RenewableHeat #SustainableAgriculture #CleanTransportation #RenewableInfrastructure #CircularEconomy #ClimateSolutions #SustainableConsumption #EnergyPolicy #ClimateEmergency #SustainableCities #GreenInfrastructure #CarbonReduction #EcoFriendly #SustainableMaterials #EnergyAware
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The researchers Dr Yixin Zhang , Dr Xiaojue Zhu, Jeffery A. Wood and Prof. Dr. Detlef Lohse have made significant strides in understanding the behaviour of micro- and nanobubbles on electrodes during water electrolysis. This process is crucial for (green) hydrogen production. These tiny bubbles form on the electrodes, blocking the flow of electricity and reducing the efficiency of the reaction. Click the links below for more information or the link to the research article. ℹ -> https://lnkd.in/eZGEM5hZ 📄 -> https://lnkd.in/eB7grJZB
Nanobubble research to improve green hydrogen production
utwente.nl
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🗝 Researchers from the VSB - Technical University of Ostrava have participated in a breakthrough discovery regarding the photoluminescent properties of carbon dots (CDs), published in the prestigious #SmallJournal. Scientists from IT4Innovations & CEET Nanotechnology Centre, together with colleagues from the Czech Advanced Technology and Research Institute, found that after irradiation with light, magnetically active polaron states are formed in carbon dots, which can then be used for light-induced hydrogen peroxide production. More at https://lnkd.in/giq9X39i #carbondots #cdots
New possibilities in the field of sustainable #energy open up with a breakthrough discovery regarding the photoluminescent properties of #carbondots (CDs) made by #scientists from the Czech Advanced Technology and Research Institute (CATRIN) Palacký University Olomouc in cooperation with VSB-Technical University of Ostrava (Vysoká škola báňská - Technická univerzita Ostrava, IT4Innovations National Supercomputing Center). Researchers found that after irradiation with light, magnetically active polaron states are formed in carbon dots, which can then be used for light-induced hydrogen peroxide production. Thus, a pure carbon nanomaterial can convert solar energy into chemical bonds. These research results were published in the prestigious journal Small. And we have a back cover! 👌 Read the paper by Michal Otyepka. Aristides Bakandritsos, Sergii Kalytchuk, Štěpán Kment, Hana Kmentová, Zdeněk Baďura and others: https://lnkd.in/e6E-ES4c More information you can find at: https://lnkd.in/etRVtuvC
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A team of researchers at the Jožef Stefan Institute has discovered spontaneous water splitting between the fibres of the mineral rutile, which has the potential to improve the efficiency of hydrogen production. #science #scienceandenvironment #hydrogen #hydrogeneconomy #slovenia #thesloveniatimes
Slovenian researchers make significant step in clean energy pursuits
sloveniatimes.com
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🔋 News from the #energy storage world! ⚡ A team of researchers, including current and former members of the ICN2 Novel Energy-Oriented Materials Group -led by Prof. Pedro Gomez-Romero-, unveils an innovative triple hybrid material for #supercapacitors. 📰 Article published in Nanomaterials MDPI. First author: Dr Sara GOBERNA FERRON #ScienceNews Discover more 👇🏽👇🏽👇🏽 link in first comment. The authors combined Polyoxometalates (POMs), silver #nanoparticles (Ag0 NPs), and activated carbon (AC) to create improved electrodes for supercapacitors. POMs + Ag0 NPs + AC = Remarkable electroactivity! 🔋⚡ Triple the Power! 💪 This triple hybrid material is a game-changer in supercapacitor performance. 🤯 Let's harness the power of science to reshape our energy future! 🌍🌟 #CleanEnergy #energystorage #greenenergy #sustainability #energyinnovation #environment #research
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M.Sc. Chemistry | Central University of Punjab | Interested for research work in material chemistry |
🔬 It's been a long journey, but I am thrilled to finally share our latest research breakthrough! Our article titled "Composition-Dependent NiS-Enriched FeNi2S4/ZnCr2O4 Catalyst for Electrochemical Oxygen Evolution Reaction" has been published in ChemistrySelect! 📝 Authors: Nazrana Begum, Rathindranath Biswas, AYAN ROY, Dr. Imtiaz Choudhary, Pooja Thakur, Dr. Krishna Kanta Haldar 📅 First published: 16 January 2024 🔗 DOI: [10.1002/slct.202302556](https://lnkd.in/g3XeQuha) It's been a long but rewarding journey, and I'm excited to share our findings on this innovative hybrid electrocatalyst. Our research opens up new possibilities for efficient and sustainable electrochemical reactions, contributing to advancements in renewable energy technologies. Read the full article here: [Link to article](https://lnkd.in/g3XeQuha) #Electrocatalysis #RenewableEnergy #Nanomaterials #Research #ChemistrySelect #DOI #Science #Engineering #Publication
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Unexpected news about my first leading co-authored publication 📜 from Max Planck Institute of Colloids and Interfaces, titled 'Is Photocatalysis the Next Technology to Produce Green Hydrogen to Enable the Net Zero Emissions Goal?', which has become one of #TopDownloadedArticle in Global Challenges Journal of Wiley. Well deserved achievement to the fantastic intercontinental teamwork contributions from Mark Isaacs, Dr.-Ing. Julio C. Garcia-Navarro, and Wee-Jun Ong (王伟俊). Please access the link provided to read our insights on the future trajectory of 🌻 🌱 🌿 photocatalysis technology readiness level (TRL, https://lnkd.in/eVwxEM5C). In the same context, I recently published a review on Elsevier Materials Today discussing the development of TRL in photoelectrochemical (PEC) technologies for photoproduction of 🌏 #Hydrogen and 🌊 #water #decontamination technologies https://lnkd.in/dedpBnTx. Today, I am interested on a couple of writing projects focused on solar panels coupled with electrolysers and materials manufacturing, aiming to unlock the potential of #semiconductor #greenfuture #technologytransfer . #solarenergy #photonmanagement #light #absorbers #carbonnitrides #device #engineering #TRL #energytransition #renewableenergies
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Revenue Growth Strategist for Greentech Companies | Helping Companies Maximize Growth | Marketing Strategy | Product Life Cycle | Emerging Market Specialist | Innovation Expert | Renewable Energy | Financial Advisory
This is the environmental equivalent of turning water into wine. Rice University may have advanced the concept of creating hydrogen from sunlight, but they are not alone. Engineers at EPFL - one of the top universities in Switzerland – looked to nature to help formulate their approach. What was their inspiration? Plants. They are seeking to emulate photosynthesis whereby plants combine sunlight to transform carbon dioxide and water into sugars and starches. In EPFL’s case they created a specialized semiconductor-based technology with two key characteristics: it is both porous and transparent. Being porous allows it to maximize contact with water in the air, and its transparency maximizes sunlight exposure. When their device is exposed to sunlight it uses water as “fuel” to produce hydrogen gas. I love it. This is the type of work that will ultimately result in achieving a zero-emissions world. We need to encourage and fund more of it and not be lulled into a false sense of security by the advances in solar and wind. The results of the work at EPFL was published in Advanced Materials in January of this year. #hydrogenenergy #greenhydrogen #solartechnology #windenergy #caltech #riceuniversity Image: Copyright Rice University
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Belgian scientist leads the way to hydrogen solutions 💡 An international team of scientists led by Université catholique de Louvain School of Chemistry professor Yaroslav Filinchuk discovered a new way to store hydrogen more easily. 💧 Hydrogen is one of the most abundant chemical elements in the universe and is both very light and very dense, making it a promising albeit complex renewable energy source. 🔬 The team studied porous materials capable of absorbing hydrogen and attaching molecules to the surface of molecular pores to reduce the pressure required and increase the storage temperature. 👉 The result? It turns out that a porous form of magnesium borohydride is capable of storing a density more than twice that of liquid hydrogen! 💪 The team’s groundbreaking discovery was published in Nature Chemistry. #EmbracingOpenness #Belgium #innovation #hydrogen #science
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