🙌 Ever wondered how the HiTHIUM ∞ Block optimizes the value of PCS? 👀 Check out the video to find out more about it, presented by Neil Bradshaw, our Director of Applications Engineering in America. Stay tuned for more questions to get answered! #PCS #batterstorage #energystorage #batterytechnology #HiTHIUM
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Just published in "ACS Applied Energy Materials" journal our latest study: https://lnkd.in/ddpaZuit The efficient conversion of both light and heat deriving from the absorption of concentrated sunlight into electricity is a recently introduced objective within the #solar #energy field. Photon-enhanced thermionic energy converters (PETECs) accomplish this aim by combining both #photovoltaic and thermionic mechanisms to maximize the energy available for the power conversion, thus overcoming the respective limitations of both types of technologies (i.e., Schockley−Queisser and Carnot limit, respectively). In a PETEC, a #semiconductor cathode is illuminated with concentrated #sunlight generating photoexcited electrons in the conduction band, which thermalize and are subsequently thermionically emitted from its surface. PETECs can achieve higher conversion efficiencies than traditional photovoltaic solar cells through the exploitation of the thermalization energy which increases the cathodic temperature. By correlating Raman measurements, Kelvin Probe Force Microscopy (KPFM) maps, and electrical characterization under concentrated solar radiation, our paper shows that heterostructures made of Chemical Vapor Deposition (#CVD) #nanocrystalline #diamond (NCD) films grown on p-type Si(100) substrates act as photon-enhanced thermionic emitter (PETE) cathodes with an electron affinity as low as ∼0.4 eV. Moreover, our experimental findings indicate that sp²-carbon rich NCD grain boundaries play an extremely important role in the emission of electrons, increasing the probability of electronic transfer toward the emitting surface. #sustainability #materials #research #chemistry #MaterialScience #Innovation #solar_energy
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❓ Yole Group asks - Unlocking GaN’s full potential: an interview with Qromis As an alternative to single-crystal materials, #engineeredsubstrates and templates have been proposed, offering lower costs, enhanced performance, & greater functionality. In power electronics, the rise of #WBG technologies presents challenges in meeting demand and balancing cost/performance ratios. According to Yole Group, power GaN market is projected to exceed US$2.5 billion by 2029... Currently, the predominant platform for power #GaN is 600V-750V 6-inch GaN-on-Si, which is transitioning to 8-inch #wafer sizes and higher voltages. This shift, coupled with stricter requirements for material quality & cost, presents an opportunity for engineered substrates. A notable solution is the QST® wafers (Qromis Substrate Technology) from Qromis, Inc. To gain deeper insights into Qromis’s activities and solutions, Taha Ayari, PhD, Yole Group, interviews Vladimir Odnoblyudov, Qromis’s CTO and co-founder. 👉 Read the full interview on https://lnkd.in/eWqkxE4S #galliumnitride #widebandgap
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Read this highly accessed article for FREE 👉 https://lnkd.in/dQHPptxY 📜 Controllable Crystallization of Perovskite Films during the Blade-Coating Fabrication Process for Efficient and Stable Solar Cells 🔑 #perovskitefilm; #solarcells; #scalablefabrication; #vacuumassisteddeposition; #FAPbI3; #stability 🎓 By Zhaoyi Jiang, Jiaqi Li, Kun Li, Rui Zhang, Zhenxing Qin, Yufei Zhang, Boheng Wu, Qiang Ma, Yulong Zhang and Weijia Zhang 🏛 Taiyuan University of Science & Technology 🏛 Ningxia University 🏛 Officers College of PAP 🏛 Beihang University The scalable production of high-quality perovskite thin films is pivotal for the industrialization of perovskite thin film solar cells. Consequently, the solvent system employed for the fabrication of large-area perovskite films via coating processes has attracted significant attention. In this study, a solvent system utilizing a volatile solvent as the primary reagent has been developed to facilitate the rapid nucleation of volatile compounds. While adding the liquid Lewis base dimethylformamide (DMF) can help to improve the microstructure of perovskite films, its slow volatilization renders the crystal growth process uncontrollable. Based on the solvent system containing DMF and ethanol (EtOH), introducing a small amount of NH4Cl increases the proportion of the intermediate phase in the precursor films. This not only results in a controllable growth process for the perovskite crystals but also contributes to the improvement of the film microstructure. Under the simulated illumination (AM1.5, 1000 W/m2), the photoelectric conversion efficiency (PCE) of the inverted solar cells has been improved to 20.12%. Furthermore, after 500 hours of continuous illumination, the photovoltaic device can retain 95.6 % of the initial, indicating that the solvent system is suitable for the scalable fabrication of high-quality FAPbI3 thin films. #article #peerreviewed #openaccess #callforreading #openaccessjournal #scientificpublishing #mdpi #mdpicoatings
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👏 Glad to announce that the 1st paper has been published in the Special Issue "Energy Performance of Nanofluids Used for Heat Transfer Applications". Energies MDPI https://lnkd.in/gSbyzswQ 📍 Check it out: Practical challenges in nanofluid convective heat transfer inside silicon microchannels 📍 Authors: Pinar Eneren, Yunus Tansu AKSOY, Maria Rosaria Vetrano 📍 Affiliation: KU Leuven 📍 More information about the paper can be found here: https://lnkd.in/dgYeuhYD #nano #fluids #heat #transfer #microchannels
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A recent interview of our co-founder / CTO Vladimir Odnoblyudov by Taha Ayari, PhD of Yole Group: A deeper insight into Qromis, Inc.'s disruptive #engineeredsubstrate technology #QST (similar to #SOI substrates with respect to manufacturing and cost), designed for unlocking the full potential of #GaN #power from 100 V to 2000 V and beyond, and enabling bigger GaN power market than the earlier projections. Key features of GaN-on-QST platform, as covered in the interview and published in the most recent newsletter of Yole Group, enable: - scalable and high-volume manufacturing in mainstream 200 mm and 300 mm #CMOS #semiconductor fabs with highly competitive cost (<5 mm edge exclusion, >90% device and backend yield) - sustainable GaN power device manufacturing business; full spectrum of products - lateral and vertical power #switches extending from 100 V to 2000 V and beyond, wafer-level monolithic ICs and #rectifiers - sustainable QST substrate manufacturing and reduced carbon footprint; substrate assembly utilizing energy efficient mainstream semiconductor process tools in CMOS fabs with >98% yield and less than 7 days of process cycle time - #SEMI-spec thickness and compatible with mainstream CMOS fabs; no dedicated manufacturing line requirement - no GaN #epitaxy cracking or wafer breakage, very high mechanical strength, significantly reduced epitaxy cost, - high device reliability and ruggedness by extensive epitaxy budget - interchangeable GaN growth-ready surface from the existing Si (111) to single crystal #GaN, #SiC, or other GaN growth-ready surfaces for business expansion …and more. Commercial QST substrates and GaN-on-QST epitaxy wafers, from sampling size to large volumes, are available from Qromis, Inc. Inquiries: info@qromis.com #galliumnitride #widebandgap
❓ Yole Group asks - Unlocking GaN’s full potential: an interview with Qromis As an alternative to single-crystal materials, #engineeredsubstrates and templates have been proposed, offering lower costs, enhanced performance, & greater functionality. In power electronics, the rise of #WBG technologies presents challenges in meeting demand and balancing cost/performance ratios. According to Yole Group, power GaN market is projected to exceed US$2.5 billion by 2029... Currently, the predominant platform for power #GaN is 600V-750V 6-inch GaN-on-Si, which is transitioning to 8-inch #wafer sizes and higher voltages. This shift, coupled with stricter requirements for material quality & cost, presents an opportunity for engineered substrates. A notable solution is the QST® wafers (Qromis Substrate Technology) from Qromis, Inc. To gain deeper insights into Qromis’s activities and solutions, Taha Ayari, PhD, Yole Group, interviews Vladimir Odnoblyudov, Qromis’s CTO and co-founder. 👉 Read the full interview on https://lnkd.in/eWqkxE4S #galliumnitride #widebandgap
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💧 Would you like explore how LPEM can be used to reveal the intricacies of electrochemical processes? In this DENSsolutions Nanotalk, Dr. Shibabrata Basak from Forschungszentrum Jülich in Germany shows how the DENSsolutions Stream system enables the control of critical parameters such as liquid flow, creating a stable and reproducible environment ideal for investigating electrochemical processes of interest. 👉 We’ve included a little snippet of the talk below, but if you’d like to watch the full Nanotalk, be sure to register via: https://lnkd.in/e2SD-H2f? #InSitu #TEM #MEMS #LPEM #LPTEM #electrochemistry #nanotechnology #nanoscience #electronmicroscopy
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📢 Exciting News! Our latest issue, Volume 4 Issue 1, is now live! 🎉 Dive into cutting-edge research with 12 articles covering a spectrum of energy materials. Explore the forefront of innovation and discovery in the world of energy science. 🔬⚡The latest issue features a groundbreaking cover article: "Proton Exchange Membrane Photoelectrochemical Cell for Water Splitting Under Vapor Feeding." This innovative PEC system utilizes a solid proton exchange membrane and gas-diffusion photoelectrodes with macroporous structures. Topics covered include conceptual frameworks, strategic design of PEC interfaces, and development of porous photoanodes like TiO2, SrTiO3, WO3, and BiVO4. 🌐 Read the cover article here: https://lnkd.in/gS2JsGNx 💡 Read all articles of the new issue here: https://lnkd.in/gJ2QKdeP #EnergyMaterials #Research #ScienceDiscoveries
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🔍 Unlock the mysteries of electrochemical research in our latest White Paper, "(Un)Grounded: Navigating Grounded and Floating Measurements. Discover the intricacies of electronic (PGSTAT) and electrochemical cell grounding, alongside the essentiality of employing a floating PGSTAT for diverse applications and experiments. https://brnw.ch/21wHm9X 🔬 Journey through practical examples and discover the significance of utilizing electrochemical instruments equipped with selectable floating features, such as our cutting-edge VIONIC. Elevate your research capabilities and embrace versatility like never before! #Electrochemistry #Research #Innovation #metrohm #ElectrochemicalResearch #Metrohm #MetrohmIndia #PGSTAT #Vionic
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☀️ From the lab to the roof: The two-layer perovskite solar cells can achieve higher efficiencies than silicon cells. All-perovskite tandem solar cells could soon pick up where silicon solar cells reach their limits. These highly efficient, lightweight and flexible cells have already proven themselves in the laboratory. 👉️ Empa researchers are working on scaling them up and making them ready for the real world. Author: Anna Ettlin #perovskite #solarcells #efficiency
Empa - Communication - Perovskit-Tandem-Solarzellen
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Those who forget history are doomed to make the same mistake forever. Understanding the science behind energy production is crucial to avoid repeating historical mistakes. Traditional methods face limitations, with losses exceeding 40%, due to scientific principles like Julie's Law. Empere® IP Tech Quantum Wireless Energy Plants' new scientific validation method revolutionizes energy efficiency with advanced quantum mechanics and superconducting materials, achieving 100% efficiency by eliminating energy loss and resistance. Their innovative technology ensures a stable and efficient energy supply, unaffected by weather conditions. Learn more about improving energy efficiency with Empere's publications at www.empere.net. #EnergyProduction #Science #Efficiency
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