home.social

#nanotubes — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #nanotubes, aggregated by home.social.

  1. 🧠 #Neurons can communicate via a hidden network of #nanotubes, new study finds. Chang et al. (2025) show that dendritic nanotubes (DNTs) are #actin-based #dendrite-to-dendrite conduits transferring Ca²⁺ and molecular cargo (incl. #), rising before plaque deposition in mouse #cortex. This overlooked pathway may expand our view of neuronal communication beyond #synapses:

    🌍 science.org/doi/10.1126/scienc

    #Neuroscience

  2. 🧠 #Neurons can communicate via a hidden network of #nanotubes, new study finds. Chang et al. (2025) show that dendritic nanotubes (DNTs) are #actin-based #dendrite-to-dendrite conduits transferring Ca²⁺ and molecular cargo (incl. #), rising before plaque deposition in mouse #cortex. This overlooked pathway may expand our view of neuronal communication beyond #synapses:

    🌍 science.org/doi/10.1126/scienc

    #Neuroscience

  3. 🧠 #Neurons can communicate via a hidden network of #nanotubes, new study finds. Chang et al. (2025) show that dendritic nanotubes (DNTs) are #actin-based #dendrite-to-dendrite conduits transferring Ca²⁺ and molecular cargo (incl. #), rising before plaque deposition in mouse #cortex. This overlooked pathway may expand our view of neuronal communication beyond #synapses:

    🌍 science.org/doi/10.1126/scienc

    #Neuroscience

  4. 🧠 #Neurons can communicate via a hidden network of #nanotubes, new study finds. Chang et al. (2025) show that dendritic nanotubes (DNTs) are #actin-based #dendrite-to-dendrite conduits transferring Ca²⁺ and molecular cargo (incl. #), rising before plaque deposition in mouse #cortex. This overlooked pathway may expand our view of neuronal communication beyond #synapses:

    🌍 science.org/doi/10.1126/scienc

    #Neuroscience

  5. 🧠 #Neurons can communicate via a hidden network of #nanotubes, new study finds. Chang et al. (2025) show that dendritic nanotubes (DNTs) are #actin-based #dendrite-to-dendrite conduits transferring Ca²⁺ and molecular cargo (incl. #), rising before plaque deposition in mouse #cortex. This overlooked pathway may expand our view of neuronal communication beyond #synapses:

    🌍 science.org/doi/10.1126/scienc

    #Neuroscience

  6. #Carbon #Nanotubes (CNTs) are cylindrical structures made entirely of carbon atoms, essentially a rolled-up sheet of graphene with diameters in the nanometer range. These fascinating nanomaterials possess extraordinary properties, including exceptional strength, high electrical and thermal conductivity, and a large surface area.

    Their characteristics make them promising for diverse applications in electronics, composite materials, energy storage, and biomedicine.

    knowledgezone.co.in/trends/bro

  7. C12, a French quantum computing startup founded by twin brothers, raises $19.4 million | TechCrunch

    「 Originally founded in 2020 as a spin-off from the Physics Laboratory of the École Normale Supérieure, the company has been working on a unique process to create quantum computers based on carbon nanotubes 」

    techcrunch.com/2024/06/19/c12-

    #France #QuantumComputing #Nanotech #Nanotubes

  8. Study suggests marine #cyanobacteria communicate via membrane nanotubes phys.org/news/2024-06-marine-c

    Direct interaction between marine cyanobacteria mediated by #nanotubes: Elisa Angulo-Cánovas et al. science.org/doi/10.1126/sciadv

    "these small tubes make it possible for these #microbes to transfer material by generating an exchange bridge, a kind of hose that connects with nearby cells, allowing them to transfer substances from some #bacteria to others"

  9. The first articles of the thematic issue “Carbon-rich materials: from #polyaromatic molecules to #fullerenes & other #carbon #allotropes” edited by Hiroko Yamada, Kyoto University, and Yoko Yamakoshi, ETH Zürich, in the Beilstein Journal of Organic Chemistry are online ➡️ beilstein-journals.org/bjoc/se

    #porphyrins #fullerenes #nanotubes #graphenes

    #DiamondOpenAccess 💎🔓 #BJOC

  10. New thematic issue “Carbon-rich materials: from #polyaromatic molecules to #fullerenes & other #carbon #allotropes” edited by Hiroko Yamada, Kyoto University, and Yoko Yamakoshi, ETH Zürich, in the Beilstein Journal of Organic Chemistry.

    🔗 beilstein-journals.org/bjoc/se

    You are cordially invited to submit your latest research by 📅 Oct 15, 2023.

    #porphyrins #fullerenes #nanotubes #graphenes
    #DiamondOpenAccess 💎🔓 #BJOC

  11. #Carbon #nanotubes not only lighten in the presence of #dopamine, but also longer. The lighting duration can serve as a new measurement for the detection of messenger substances.
    #Chemistry #Biology #Nanotechnology #sflorg
    sflorg.com/2023/04/chm04122302

  12. A new paper by our colleagues from the Zernike Institute (U. Groningen) has just been published, including some #ssNMR from my group. The paper looks at the process of polydopamine formation the presence and absence of halloysite #nanotubes. See the paper here: doi.org/10.1038/s41467-023-363 #polymers

  13. "Typical carbon like carbon , or even diamond are static materials," he said. "Here, we have created new types of carbon nanomaterials that maintain their fascinating electrical and properties but now have capability to do things like rotate, compress, or stretch," Jasti.

  14. Ever wondered how #carbon #nanotubes might be used as a new form of #transistor? Check out Dr. Monika Snowdon's talk from last Friday: youtu.be/f53vz14al4U

    She walks us through her doctoral projects related to the fabrication and characterization of these devices.

    For those new to the #livestream, this is a good way to experience what it's like!

    #ScienceMastodon #scicomm #STEM #chemistry #openscience

  15. RT @NgiPointer: If New Computing Materials like #Fluorides, #Nanotubes, or #Graphene get you excited about the near #future, download the amazing #eReport that our colleagues at @linknovate did.

    Discover #NewComputingMaterials t.co/qbgJF5MSMR
    _
    @linknovate @NGI4eu @NGIoT4eu @NgiZero

    🐦🔗: nitter.eu/NGI4eu/status/155481