#Electronmicroscopy

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#Electronmicroscopy Reel by @hectorvstheafm (verified account) - What is an atomic force microscope (AFM)? How an #afm works? #hectorvstheafm is here to clarify your concepts. It is the machine that allowed "seeing"
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@hectorvstheafm
What is an atomic force microscope (AFM)? How an #afm works? #hectorvstheafm is here to clarify your concepts. It is the machine that allowed "seeing" atoms and the one that has enabled the semicon race for the last 40 years. The unprecedent boom in #nanotechnology could only be possible thanks to this microscope. An AFM uses atomically sharp needles to sense the surface of things and the forces arising from it. Allows understanding new materials like graphene, biological processes like protein folding, and sub nanometer roughness inspection in semiconductor fabrication processes.
#Electronmicroscopy Reel by @adventure_094 - Scientists used advanced #microscopy #techniques to reveal the tiny #structure that #forms the foundation of #matter. Atoms, though incredibly small,
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@adventure_094
Scientists used advanced #microscopy #techniques to reveal the tiny #structure that #forms the foundation of #matter. Atoms, though incredibly small, are the building blocks of everything in the universe. Seeing one in such detail allows researchers to study its behavior, electron distribution, and quantum properties. The imaging process involves trapping atoms and using highly sensitive instruments to detect subtle interactions. This enables visualization without disturbing the atom, capturing a snapshot of reality at the smallest scale. High-resolution images of atoms improve our understanding of materials, chemistry, and physics. They help refine models of atomic interactions, energy levels, and the forces that govern the quantum world. Observing an atom so clearly reminds us that even the tiniest components of nature are intricate, dynamic, and essential. It’s a glimpse into the fundamental structure of everything around us.
#Electronmicroscopy Reel by @1minbioartvishuals - #MicroscopePrinciple #ScienceShorts #HowMicroscopeWorks #ScienceExplained #microscopy
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@1minbioartvishuals
#MicroscopePrinciple #ScienceShorts #HowMicroscopeWorks #ScienceExplained #microscopy
#Electronmicroscopy Reel by @quantumlah - Senior Research Fellow Anindya Banerji explains how a quantum memory built by him and his group members works in a quantum network.
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@quantumlah
Senior Research Fellow Anindya Banerji explains how a quantum memory built by him and his group members works in a quantum network.
#Electronmicroscopy Reel by @wondersciencetv - Saw this beautiful and mysterious electric microscope today while doing something else at the @caltech imaging lab. "Physicists use it," I was told.
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@wondersciencetv
Saw this beautiful and mysterious electric microscope today while doing something else at the @caltech imaging lab. "Physicists use it," I was told.
#Electronmicroscopy Reel by @nikonhealthcare - Every cell in our body constantly senses and reacts to physical forces, from the stretch of muscle fibers to the gentle touch on our skin 🤲. Understa
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@nikonhealthcare
Every cell in our body constantly senses and reacts to physical forces, from the stretch of muscle fibers to the gentle touch on our skin 🤲. Understanding how cells convert these mechanical cues into biological signals, a process called mechanotransduction, helps scientists uncover how tissues grow, heal, and sometimes malfunction. 🤖 In a new Nature Communications study, researchers from Harbin Institute of Technology designed gear‑shaped microrobots built from metal–organic frameworks (MOFs), materials known for their precise, customizable structure. These micro‑gears can gently interact with a cell’s microvilli, delivering controlled pushes and twists while tracking how the cell responds in real time. This gives scientists a window into the mechanics of life at the single‑cell level. 🩺 Such technology could one day help unlock how physical forces influence processes like immune responses, cancer progression, and tissue regeneration. By bridging micro‑robotics and cell biology, we’re learning not just how cells move, but how they feel and react to the world around them. Read the full paper - link in bio. #NikonScienceSpotlight #NikonMicroscopy #Nanorobotics #Mechanobiology #MaterialsScience #BiomedicalEngineering
#Electronmicroscopy Reel by @argonne (verified account) - Many of today's biggest scientific breakthroughs begin with the smallest details, all the way down to individual atoms. In our latest #Science101 vide
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@argonne
Many of today’s biggest scientific breakthroughs begin with the smallest details, all the way down to individual atoms. In our latest #Science101 video, Argonne researchers show how powerful microscopes help scientists see how materials work at the atomic scale. By understanding matter at its smallest scales, researchers can design better materials and build more efficient, reliable technologies. See how microscopy is uncovering the big secrets of the atomic world by checking out the link in our bio.
#Electronmicroscopy Reel by @posthuman.io (verified account) - A microscope reveals the hidden architecture of a microprocessor, exposing the silicon die where millions or even billions of transistors are arranged
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@posthuman.io
A microscope reveals the hidden architecture of a microprocessor, exposing the silicon die where millions or even billions of transistors are arranged in intricate patterns. What appears from a distance as a simple chip is actually a dense network of microscopic circuits that process instructions, store data, and control the flow of signals across a device. At high magnification, the chip’s surface resembles a miniature city of geometric shapes and metallic lines. These structures represent logic gates, wiring layers, and transistor arrays that form the processor’s computational core. In some cases, microscopes can reveal individual transistor structures and connections measured in micrometers or nanometers. Researchers and engineers often expose the silicon die by removing the processor’s protective packaging, allowing microscopes to capture the complex layout of components such as arithmetic units, control circuitry, and memory blocks embedded within the chip. Under magnification, the technology that powers modern computers, smartphones, and data centers becomes visible as a layered landscape of silicon and metal engineered at an almost unimaginable scale. What does seeing the hidden architecture of a microprocessor change about how you think of everyday technology? Give us your thoughts below - #tech #zoom #processor #posthuman
#Electronmicroscopy Reel by @_.modern_.public_.school_ - Unlocking the secrets of the atom ⚛️✨ From Electrons dancing around the nucleus to tiny but powerful Protons and Neutrons, this is where all matter be
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@_.modern_.public_.school_
Unlocking the secrets of the atom ⚛️✨ From Electrons dancing around the nucleus to tiny but powerful Protons and Neutrons, this is where all matter begins! 🔬💫 Smallest particles, biggest wonders—welcome to the world of Atomic Structure 💡📚 Explanation by our respected principal @drurmila_sharma 🤍#ScienceReel #AtomicStructure #LearningMadeFun #ChemistryBasics
#Electronmicroscopy Reel by @musicalchemist (verified account) - Scientists just created a molecule with an electronic structure never seen before. The electrons move through it in a corkscrew pattern called a half
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@musicalchemist
Scientists just created a molecule with an electronic structure never seen before. The electrons move through it in a corkscrew pattern called a half-Möbius topology. Researchers built the molecule atom by atom and used a quantum computer to simulate its unusual behavior. Interesting glimpse into where chemistry and computing are starting to intersect. #science #chemistry #quantumcomputer #physics
#Electronmicroscopy Reel by @alleninstitute - ExA-SPIM is giving scientists mind blowing views of the brain. 🤯 Using technology originally designed for defect detection in electronics manufactur
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@alleninstitute
ExA-SPIM is giving scientists mind blowing views of the brain. 🤯 Using technology originally designed for defect detection in electronics manufacturing, the “ExA-SPIM” microscope is showing scientists the mouse brain as it’s never been seen before. ExA-SPIM, developed by a team at the @AllenInstitute, is a one-of-a-kind microscope built for capturing images of the entire mouse brain at incredible resolution. The images coming off the scope allow the scientists to view individual neurons and their wiring in the context of the entire mouse brain, a jellybean-sized organ that houses nearly 80 million individual neurons. The researchers use special fluorescent tags to make certain neurons glow under the microscope and the resulting images from the new technology are stunning in their clarity and definition. The new machine is a kind of light-sheet microscope, an emerging technology that uses 2D planes of light to illuminate tissues or cells with high definition; the 2D images are then stitched together to create a 3D view of entire mouse brains, in the case of ExA-SPIM. This new microscope also adds technology from the electronics manufacturing industry: “defect detection” cameras originally created to automatically detect minute imperfections in LED chips on conveyer belts in electronics factories. This camera technology enables both high resolution and speed in imaging. #scicomm #neuroscience #brain
#Electronmicroscopy Reel by @mindsetelevationlabs - 🧬 Science is way more intense than they taught you in school! #science #biology #didyouknow #microscopicworld #macroscience
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@mindsetelevationlabs
🧬 Science is way more intense than they taught you in school! #science #biology #didyouknow #microscopicworld #macroscience

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