Tohoku University develops non-invasive digital pill detection

Flexible bioelectronics in #IJEM! Researchers from Incheon National University, Pusan National University and Yonsei University comprehensively explore ultra-thin single-crystalline #silicon as a #semiconducting material, showcasing its transformation from rigid to flexible forms via on-wafer and rigid-to-soft integration processes and paving the way for next-generation #bioelectronics and advanced #biomedical applications. Young Uk Cho Ki Jun Yu #FlexibleElectronics #ExtremeManufacturing #OpenAccess: https://lnkd.in/e_EAmWQy  

Pioneering Finnish science is helping the world see what’s really inside a solar cell, AI chip or optical coating – atom by atom. The ToF-ERDA recoil spectrometer from the University of Jyväskylä enables nanometre-scale material analysis, detecting all elements including hydrogen. Its third full system has just been delivered to the University of Oslo, following earlier deliveries to the University of Surrey and Comenius University in Bratislava / Univerzita Komenského v Bratislave. What makes this a global first? It’s the only turnkey recoil spectrometer system sold internationally, designed specifically for cleanroom environments used in chip and wafer manufacturing. Each delivery includes Potku – Jyväskylä’s open-source analysis software, already in use at over ten research institutes worldwide. Read more ➡️ https://lnkd.in/deNXBzVW 📷: Mikko Laitinen Mikko Laitinen Jaakko Julin #finland #goodnewsfromfinland #deeptech #materialsresearch #science

Kyoto University-JNC joint research team innovates next-generation deep blue OLED materials with new ‘(Double Borylation)’ technology October 29, 2025/in Display, Focus on /by UBIResearchNet A joint research team led by Professor Takuji Hatakeyama from the Department of Chemistry at Kyoto University, in collaboration with JNC Co., Ltd., has developed a novel ‘Double Borylation’ synthetic strategy and successfully realized a world-leading pure Deep Blue OLED emitting material. This achievement was published in the international journal Nature Communications (October 2025, DOI: 10.1038/s41467-025-63908-y) and is anticipated to be a core technology for next-generation displays such as high-resolution micro-OLEDs. https://lnkd.in/gMqvQP25 #DeepBlueOLED #DoubleBorylation #OLEDmaterials #MR_TADF #MicroOLED #ARVRdisplay #DisplayTechnology #NextGenDisplay #KyotoUniversity #UBIResearchNet

#TAMUCHEN professor Dr. Jeetain Mittal and Texas A&M researchers have received funding to study novel polymers called salogels with the goal to improve thermal energy storage. From buildings to biomedical devices, temperature management is a common challenge engineers face, which is why the team developed star-shaped polymers that, combined with salogels, solve these problems! Read more: tx.ag/salogelsresearch

UCF researchers have developed an innovative, noninvasive tool for diagnosing and studying diseases that affect tissues, including those in the lungs, intestines or brain. Associate Professor Swaminathan Rajaraman from the UCF Department of Materials and electrical engineering doctoral student Surbhi Tidke are using "organ-on-a-chip" technology to study how tissues respond to medications, infections or disease in ways that traditional lab methods cannot: http://bit.ly/48Eaq2v

🔬 This month in nanoscience: 🏆 The 2025 Nobel Prize in Chemistry recognized breakthroughs in metal-organic frameworks (MOFs), materials engineered for cleaner energy and environmental solutions. ⚙️ Graphene is moving from lab research to scalable production for sensors and semiconductor applications. Both advances rely on one thing, the ability to study and control matter at the atomic scale. That’s where RHK Technology leads. Our scanning probe systems give researchers the precision and flexibility to turn nanoscale discovery into real-world impact. #RHKTechnology #Nanotechnology #SPM

#BCMaterials_News | 🧬 Artificial proteins for fast, sustainable and biocompatible energy device Researchers from CIC biomaGUNE, BCMaterials and CIC energiGUNE have achieved achieved a major step toward sustainable and biocompatible energy devices: the development of artificial proteins capable of transporting and storing electricity. Conductive proteins are of particular interest for developing bioelectronic devices, such as pacemakers, implantable glucose sensors and brain electrodes This is the result os a study published in Advanced Materials in the framework of the e-Prot Project, funded by European Union's Horizon 2020 Research and Innovation Programme. 👉 Full article here: https://lnkd.in/dpwJk7hf The study has been led by Aitziber López Cortajarena (Ikerbasque Research Professor and scientific director of CIC biomaGUNE), Reyes Calvo (Ikerbasque Research Professor at BCMaterials) and Maica Morant (senior researcher at CIC EnergiGUNE). ➡️Further information in our website: https://lnkd.in/d292_iYG

📢 New in Chemical Science! "Large-area thin-film synthesis of photoactive Cu3PS4 thiophosphate semiconductor with 0–14 pH stability range" by Lena Mittmann and Andrea Crovetto et al. from DTU Nanolab. Read it for free here: https://lnkd.in/e_hcmaVf An accessible synthesis of large thin films of a promising earth-abundant semiconductor that is rarely made in thin films! Congratulations to all the co-authors: Javier Sanz Rodrigo, Eugène BERTIN, Giulia Dalmonte, Jean-Claude Grivel, and Ivano E. Castelli

"When Confinement Shapes Catalysis" Turing-type 2D Pd nanomeshes shows how nanoscale microenvironments redefine catalytic behavior. Check out the recent JACS paper from our research group. https://lnkd.in/gQYV7JDd

E-beam Accelerator Market to Reach USD 288 Million by 2031 🚀📈 The global E-beam Accelerator Market was valued at USD 231 Million in 2024 and is projected to reach USD 288 Million by 2031, growing at a steady CAGR of 3.2% during 2025–2031. An E-beam Accelerator is a device that uses high-energy electron beams to modify materials, sterilize products, or initiate chemical reactions. It is widely applied in medical sterilization, food irradiation, polymer crosslinking, and scientific research, providing a clean, efficient, and non-thermal processing method. 📊 Market Highlights ✔️ Increasing use of electron beam technology for medical equipment sterilization and food safety. ✔️ Rising adoption in industrial material processing, including polymer curing and crosslinking. ✔️ Growing investments in scientific research for advanced materials and radiation studies. ✔️ Continuous technological advancements improving energy efficiency and operational reliability. IBA | WASIK ASSOCIATES | Jiangsu Dasheng Electron Accelerator | Iotron | VIVIRAD GROUP ⚙️ Product Segment Analysis ✅ Low and Mid Energy ✅ High-Energy 🏭 Application Segment Analysis ✅ Medical & Food Industry ✅ Industrial ✅ Scientific Research The E-beam Accelerator Market is set to grow steadily with increasing applications in healthcare sterilization, industrial material treatment, and food preservation. Ongoing innovations in beam control systems and compact accelerator design are expected to enhance performance, energy efficiency, and market adoption across multiple sectors. 🔗 Access the full MarketsGlob report for detailed insights, technological advancements, and regional market developments. https://lnkd.in/drrBqPVp #EbeamAccelerator #RadiationTechnology #MedicalSterilization #FoodIrradiation #MaterialProcessing #IndustrialEquipment #ScientificResearch #HighEnergyPhysics #Innovation #MarketsGlob