May 2024 marked a milestone month for WD Advanced Materials, as we set about: 1. ? Bringing to market new #quantum-grade diamond products that promise to push the known boundaries of technology, spanning sensing, to compute, to biomedical applications 2. ?? Increasing the form factor of our single crystal diamond substrates through Defense Advanced Research Projects Agency (DARPA)’s Large Area Device-quality Diamond Substrates program, to reach 2” then 4” for use in #microelectronics 3. ?? Devising new #diamond technologies, from calibrated doping to next-gen epitaxial solutions, that address the thermal management and #AdvancedPackaging needs of our semiconductor industry partners 4. ?? Forging long-term partnerships, both close to home, and across the globe, to solve into the increasing complexity and demands of leading-edge technologies (more to be announced soon!) 5. ?? Building a global ecosystem — on the heels of speaking at the Materials Research Society Washington meeting, and the Ceramics Expo / Thermal Management Expo earlier this month in Michigan, our Chief Technology Officer John Ciraldo and Chief Commercial Officer Brittany R. Lewis engaged with the international compound semiconductor community, sponsoring and attending CS MANTECH in Arizona from May 20-23. To close out May, our time this past week at the New Diamond & Nano Carbons (#NDNC) 2024 conference in Sydney, Australia further reinforced the readiness to adopt diamond as a solution. Interested in learning more? Reach out today: https://lnkd.in/eVvyGwku or by email [email protected] #compoundsemiconductor #semiconductor #materialscience #thermalmanagement #disruption #UWBG #UWBGS #nextgen #technology
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Technology and integration roadmap for optoelectronic memristor In article number 2307393, Fucai Liu, Deen Gu, Kah-Wee Ang, and co-workers present an overview of the fundamental performance, mechanisms, structure designs, applications, and integration roadmap of optoelectronic memristors. By establishing connections between materials, multilayer optoelectronic memristor units, and monolithic optoelectronic integrated circuits, this review provides insights into emerging technologies and prospects expected to drive innovation and widespread adoption in neuromorphic optoelectronics applications. https://lnkd.in/g9mbvhkN
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???WEBINAR ALERT?? Join?Barbara Hughes?for an informative webinar on atomic layer deposition for li-ion cells hosted by Volta Foundation ???Battery Material Performance Enhancer: Atomic Layer Deposition Nanocoatings for Li-Ion Cells ???July 23, 2024 ??11 AM ET ???Register at?https://lnkd.in/gzf5hCaQ ???The battery industry is in constant pursuit of new materials and processes that can increase cell performance to enable more reliable products. Forge Nano’s proprietary Atomic Layer Deposition technology, Atomic Armor, optimizes battery materials by applying protective nanocoatings engineered to improve battery product performance and lifetime. The webinar will cover Forge Nano’s work on high-nickel NMC, graphite and silicon anodes, and give a glimpse into the newly formed Forge Battery, which intends to produce cylindrical cells using ALD-coated materials at gigawatt hour scale. #VoltaFoundation?#WebinarSeries?#BatteryEvents?#BatteryWebinars?#NMC #Graphite #SiliconAndoes #ForgeBattery #ForgeNano #BatteryCells #CellEngineering #AtomicLayerDeposition Myra S. Dyer, PE Yen T. Yeh Dana Bubonovich
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Step 6 of building a KM3NeT Neutrino Digital Optical Module (DOM) at Nikhef (Nationaal instituut voor subatomaire fysica) In this episode we see the assembly of PMTs (PhotoMultiplier Tubes) in the top hemisphere PMT-structure. PMTs vary in diameter and must be selected for the top or bottom PMT-structure. The PMTs are registered (done by scanning barcodes on PMTs) in the 'so called' Detector Integration Assistant system (DIA). This ABS (Acrylonitril Butadieen Styreen) PMT-structure consists of 5 injection molded parts which were developed in collaboration with the Plastics Technology Department of Windesheim University of Applied Sciences (Paul Dijkstra) The top hemisphere consists of 12 PMTs. A sealing rubber is slid over the PMT to ensure later in the assembly process that the optical gel remains on the outside of the PMT structure. To capture as much as possible Cherekov light a reflector is placed around the PMT. The 'Octopus' readout board (where all PMTs will be connected later) is temporarily attached with a wire in the assembly.
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Check out our Featured Article by Eric Powers, WATCHARAPHOL PARITMONGKOL, Will Tisdale and colleagues. In their work, they used a series of advanced optical spectroscopy techniques, coupled with computer simulation, to understand interactions between the atomic vibrations and electronic excitations in silver phenylselenolate, a recently discovered 2D hybrid semiconductor. These results highlight the unique impact of this material’s hybrid structure on its light-emitting properties and suggest strategies for controlling these properties through chemical or structural modification. https://lnkd.in/ev6iji4p
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I am thrilled to share my current article, published in “ACS Applied Materials & Interfaces” at American Chemical Society. Our research focused on improving the performance of wafer-scale 3D heterogenous integration via NHC self-assembled nanolayers. In particular, we succeeded in Cu/polymer bonding at the 170°C, resulting the low-temperature bonding , robust corrosion inhibition, enhanced electrical conductivity, back-end-of-line process compatibility, and fabrication process reduction. This will provide a solution for the conventional Cu/SiO2 hybrid bonding, which suffers from the different coefficient of thermal expansion. Based on this research, NHC Cu/polymer bonding provides versatile advances in 3D heterogeneous integration, indicating that NHC Cu/polymer bonding can be utilized as a platform for future 3D vertical chip architectures. Thanks to Gunhoo Woo, Gyu Young Lee, Park Systems and ?????? ???. Check the full-text of this article in American Chemical Society. https://lnkd.in/gWFCaE4q
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Explore Master Bond's EP114, a groundbreaking two-component nano silica-filled epoxy, revolutionizing nanocomposite production through vacuum infiltration. Learn how researchers at Florida International University utilized EP114 to overcome key challenges in nanocomposite fabrication. Dive into the full case study here: https://bit.ly/4fLaOgd
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Great event to understand the benefits of Atomic Layer Deposition on battery materials.
???DON'T MISS NEXT WEEK'S WEBINAR?? Next Tuesday, July 23rd @ 11 am ET, Barbara Hughes will be presenting "Battery Material Performance Enhancer: Atomic Layer Deposition Nanocoatings for Li-Ion Cells." In this hour long webinar, Barbara will cover the common #battery material performance pitfalls and present data on how Forge Nano's Atomic Armor #ALDep coatings have increased their performance (up to 40%!) We'll be covering enhancements to #NMC, #Graphite, #Silicon and showcasing early performance of Forge Battery's 21700 energy cells. Don't miss this event ???Register at https://lnkd.in/gzf5hCaQ #VoltaFoundation #WebinarSeries #BatteryEvents #BatteryWebinars #NMC #Graphite #SiliconAnodes #ForgeBattery #ForgeNano #BatteryCells #CellEngineering #AtomicLayerDeposition Myra S. Dyer, PE Yen T. Yeh Dana Bubonovich
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Today, Sebastian Ekeroth presented our latest results on the subject of “Thin Films and Nanostructures for the Green Energy Revolution” at the FunMat-II meeting in Stockholm. FunMat-II is a competence center on functional nanoscale materials based at Link?ping University. FunMat-II focus specifically on wear resistant coatings for cutting tools, corrosion resistant coatings for fuel cells and catalytically active materials for batteries. #GreenEnergyRevolution #FunMat #ThinFilms #Nanostructures
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Glad to share our recent publication in Advanced Materials Interfaces. By using in situ TEM with metal-organic chemical vapor deposition, we observed distinct growth mechanisms for GaP nanowires via the vapor–solid–solid (VSS) approach. The study reveals how different catalyst phases, particularly nickel phosphide, can dramatically increase growth rates and stabilize growth, unlike traditional VSS processes. Full text can be read here: https://lnkd.in/d4NC3CyG Authors: Tianyi Hu yuanyuan cao Sara Franzén Daniel Madsen Michael Seifner Maria Messing Kimberly Thelander Acknowledgments: NanoLund Lund University Hitachi High-Tech America, Inc. Norcada Gatan Inc. #MaterialsScience #Nanotechnology #Nanofabrication #Semiconductors #Electronmicroscopy
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? Exciting News from GP Plasma! ?? We're thrilled to announce our collaboration with Arizona Thin Film Research to push the boundaries in thin film technology. This partnership allows us to combine our expertise in custom vacuum deposition systems with cutting-edge magnetic field optimization of deposition sources, driving innovation in materials science. Whether you're looking to enhance product performance, explore new material applications, improve deposition uniformity or scale up your R&D, GP Plasma is here to help you achieve your goals. Let's innovate together! Learn more about our collaboration project where AZTFR helped us reduce deposition uniformity on a roll to roll polymer web coater from +/- 13% to less than +/-5% ?? https://lnkd.in/e_4cwBu9 Contact GP Plasma: https://lnkd.in/d4SFhyp #ThinFilmTechnology #Innovation #VacuumDeposition #ResearchAndDevelopment #MaterialsScience #GPPlasma
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CXO @ EagleONE Group | Executive Leadership, Six Sigma
6 个月Incredible strides this month—exciting to see WD Advanced Materials pushing boundaries and building global connections in such transformative ways!?