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Fe-based chemical looping upgrades the steam-iron process to deliver pure H₂, NH₃ & syngas while capturing CO₂. CLR variants (SR-CLC, CLR-A, CL-SMR) for low-emission fuel & chemical production ➡️ engineeringness.com/fe-based-chemi… #ChemicalLooping #Hydrogen #CarbonCapture #CleanEnergy
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Fe-Based Chemical Looping | Upgrading Steam-Iron for Efficient Ammonia & Hydrogen Production with...
Explore Fe-based chemical looping: an advanced steam-iron process for pure H₂, NH₃ & syngas production with inherent CO₂ capture. Learn reactor designs, CLR variants (SR-CLC, CLR-A, CL-SMR), and...
🚀 New on @Engineeringness: “How This Tiny Coil Shapes Your World” 🌍🔌 Dive into the magic of #inductors—how they store energy, smooth power, & filter noise in YOUR gadgets! ⚡️ Watch now ▶️ youtu.be/KSylo01n5FY #Engineering #Electronics #TechExplained
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Inductors Explained - The basics how inductors work working principle
Uncover the secrets of magnets—the hidden force behind smartphones, high-speed trains etc 🧲 #Engineeringness video exploring magnets. youtube.com/watch?v=tksf8T… #Magnets #electromagnet #MagneticField #FutureTech
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The Invisible Force | How Do Magnets Work? What Are Magnets? |...
New Interview Alert! We sat down with Dr. Mahmoud Wagih, @BenjaminKing96 & Nikolas Bruce from @GlasgowUni to dive into their chip‐free wireless sensors; a sustainable, eco-friendly alternative to traditional RFID tech. engineeringness.com/revolutionisin… #Sustainability #Innovation
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Revolutionising Chip-Free Wireless Sensors | Interview on Sustainable Sensor Technology with Dr....
Discover how Dr. Mahmoud Wagih, Benjamin King, and Nikolas Bruce from the University of Glasgow are revolutionizing wireless sensor technology with sustainable, chip‐free sensors that offer an...
Excited to share our new article on @TU_Delft , @UV_EG & @NUSingapore breakthrough nanodrum research on 2D nanomaterials. @AtaKeskekler, @ymblanter, @KoperskiLab and team. engineeringness.com/study-reveals-… #Nanotech
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Study Reveals Nonlinear Magnetic Phase Transitions in 2D Nanomaterials Using Innovative Nanodrums
TU Delft researchers and collaborators used innovative nanodrums to uncover nonlinear phase transitions in 2D nanomaterials, linking magnetic and elastic properties. This breakthrough study paves the...
A self-healing hydrogel that mimics human skin is here; combining stiffness, flexibility, and rapid repair. @AaltoUniversity & University of Bayreuth team. engineeringness.com/self-healing-h… #Hydrogel #MaterialsScience #Innovation
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Self-Healing Hydrogel Mimics Human Skin with Clay Nanosheet Technology
Aalto University and University of Bayreuth researchers have developed a self-healing hydrogel that mimics human skin. Using ultra-thin clay nanosheets and polymer entanglements, the material...
Researchers from @ruhrunibochum and @maxplanckpress , led by @ListLaboratory and Stefan M. Huber have harnessed halogen bonding for selective chiral molecule synthesis. engineeringness.com/breakthrough-i… #Chemistry #Innovation #Pharma
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Breakthrough in Salt-Based Catalysts | Asymmetric Halogen Bonding Enables Precise Chiral Synthesis...
A new salt‐based catalyst from Ruhr University Bochum and Max-Planck-Institut enables selective chiral synthesis via halogen bonding. This modular system directs reactions to yield the desired...
🚀 Researchers from @uniofwarwick & @univ_lille have confined Cs₂Mo₆Br₁₄ in 10Å carbon nanotubes to create a novel 1D material. engineeringness.com/new-1d-materia… #Nanotech #Innovation
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New 1D Material via Carbon Nanotube Confinement Paves Way for Quantum Computing
Researchers from the University of Warwick and Lille show how confining a cluster-based compound in carbon nanotubes creates a novel 1D material with potential in quantum computing and molecular...
Exciting breakthrough from @UofMaryland @UMD_CHBE ! Led by Asst. Profs @WoehlLab & Paul Albertus with Medha Rath, researchers triggered self-organising behaviour in microscopic particles using a constant electric current. engineeringness.com/active-matter-… #ActiveMatter #Innovation
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Active Matter Breakthrough | UMD Unveils Self-Organising Microscopic Particles Under Constant...
University of Maryland researchers discovered a method to induce self-organising active matter behaviour in microscopic particles using a constant electric current, paving the way for smart, adaptive...
Exciting breakthrough from @Northwestern! Prof. Franz Geiger @geiger_lab , along with Raiden Speelman and Ezra Marker, observed water molecules flipping before oxygen formation. This insight could boost clean hydrogen production. engineeringness.com/northwestern-u… #CleanEnergy #Hydrogen
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Northwestern University Study Reveals Water Molecule Flips as Key to Cutting-Edge Hydrogen Produc...
Researchers at Northwestern University observed how water molecules flip before forming oxygen, explaining the extra energy needed for water splitting. This discovery opens paths to more efficient...
Researcher at @UofIllinois in collaboration with @DowNewsroom have pioneered a catch-and-release method to recycle platinum catalysts in silicone production! engineeringness.com/university-of-… #Sustainability #Innovation #ChemEng
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University of Illinois Unveils Innovative Platinum Catalyst Recycling for Silicone Production
University of Illinois pioneers an innovative platinum catalyst recycling method that boosts silicone production efficiency, reducing costs and waste while enhancing sustainability in industrial...
Associate Prof. Sachin Handa @Mizzou @MizzouAandS @Novartis & team developed a micellar electrochemistry method using coconut oil & amino acids. engineeringness.com/university-of-… #GreenChemistry #PFAS #CleanEnergy #Innovation #MizzouForward
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University of Missouri’s Micellar Electrochemistry Breakthrough Revolutionises Pharmaceutical...
In a breakthrough from the University of Missouri, researchers use micelles from coconut oil and amino acids to revolutionize pharmaceutical synthesis. This eco-friendly electrochemistry method...
A team from @univgroningen, lead by @luzylein, @nhlstenden, and @TeijinAramid have developed a microwave-assisted recycling process for Kevlar/aramid fibers. engineeringness.com/microwave-assi… #Aramid #Sustainability #Engineering #Innovation #Recycling
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Microwave-Assisted Recycling Achieves 96% Efficiency for Kevlar and Aramid Fibers | Paving the Way...
Discover how a groundbreaking microwave-assisted process achieves up to 96% efficiency in recycling Kevlar and Aramid fibers, enabling sustainable disposal of bulletproof vests, ropes, and automotive...
🚰A team from @UHouston, led by Dr. Devin Shaffer with @SayaliShaligra1, @RahulShevate1 & Siddhartha Paul, developed an ultrathin membrane that speeds up desalination. engineeringness.com/new-ultrathin-… #Desalination #WaterTech #Innovation
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New Ultrathin Membrane Makes Desalination Faster, Cheaper, and More Efficient
Researchers at the University of Houston have developed an ultrathin polyamide membrane that enhances desalination efficiency, allowing water to pass 8x faster while maintaining salt rejection. This...
Ever wondered what makes your smartphone, laptop, or car actually work? It’s all thanks to #Semiconductors! From band gap energy to doping & the future of quantum tech. 🎥 youtube.com/watch?v=nJsRUj… #Engineeringness #TechExplained #STEM #Engineering #FutureTech
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What is a Semiconductor? | Band Gap, Doping & How Semiconductors work
We spoke with @Albert_T_Liu from the @UMich about his game-changing time-aware sensors. Full interview: engineeringness.com/interview-with… #ChemicalEngineering #SensorTech #Biomedicine #UniversityOfMichigan #Innovation #Engineeringness
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Interview with Dr. Albert Liu | How Time-Aware Sensors Are Transforming Chemical Mapping for...
Discover how Dr. Albert Liu and his team at the University of Michigan are revolutionising chemical mapping with time-aware sensors. In this interview, Dr. Liu explains the technology’s impact on...
Research from @cwru @CaseEngineer reveals inefficiencies in porous materials used for molecular separation! 🧪 @Lydia_Kisley, Burcu Gurkan & @Duval_Lab , findings could cut costs in #pharma & #chemeng. engineeringness.com/new-research-r… #Science #Innovation #MaterialsScience
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New Research Reveals Porous Material Inefficiencies in Molecular Separation
New research from Case Western Reserve University reveals that porous materials used in molecular separation are inefficient due to blocked pores, leading to higher costs. Using single-molecule...
Researchers at @RiceUniversity , led by @AngelMartiLab have developed water-based micellar reactors that eliminate toxic solvents. engineeringness.com/rice-universit… #GreenChemistry #SustainableTech #Pharma #MaterialsScience #ChemicalEngineering #RiceUniversity #Technion
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Rice University Unveils Water-Based Reactors, Eliminating Toxic Solvents in Pharmaceutical Chemistry
Rice University researchers have developed water-based micellar reactors that replace toxic solvents in pharmaceutical chemistry. This breakthrough enables sustainable, efficient photocatalytic...
Researchers at @ucdavis have developed a total synthesis of ibogaine by @UCDavisIPN, @DEOlsonLab including @rishab033 and team. engineeringness.com/synthetic-ibog… #UCdavis #Psychedelics #Ibogaine #AddictionTreatment #MentalHealth #Neuroscience #Pharmaceuticals #Biotech #Innovation
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UC Davis Develops Synthetic Ibogaine | Breakthrough in Psychedelic Addiction Treatment
UC Davis researchers have developed a total synthesis of ibogaine, a psychoactive compound with potential anti-addictive and antidepressant properties. This breakthrough offers a sustainable altern...
Researchers at @Cornell led by Prof. @brett_fors, with @ReaganDreiling & Kathleen Huynh, have developed a recyclable thermoset plastic using bio-based DHF. 🔗 engineeringness.com/cornell-scient… #Sustainability #Plastics #Recycling #MaterialsScience #Cornell #Chemistry #CircularEconomy
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Cornell Scientists Develop Recyclable Thermoset Plastic | A Breakthrough in Sustainable Polymers
Cornell researchers have developed a recyclable thermoset plastic using bio-based dihydrofuran (DHF), offering durability while enabling chemical recycling and environmental degradation. This...
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