The stunning colors of the Anna's hummingbird are iridescence caused by light scattering from nanoscale structures within their feathers.

The stunning colors of the Anna's hummingbird are iridescence caused by light scattering from nanoscale structures within their feathers.

January 11, 2016...

'These include in vivo, sub-cellular medical communication, smart materials and sensing at the molecular level...'

1906.1-2015 - IEEE Recommended Practice for Nanoscale and Molecular Communication Framework

ieeexplore.ieee.org/document/73782…

Google scientists have modelled a fragment of the human brain at nanoscale resolution, all 150 million connections trib.al/Vpapev2

Congrats to Amanda Petford-Long, director of our Materials Science division, who was named a 2024 Fellow of Materials Research Society (MRS). She's honored for innovative electron microscopy techniques, nanoscale research, and leadership in #materialsscience - bit.ly/3W6r306

Researchers have generated a nanoscale-resolution reconstruction of a millimeter-scale fragment of human cerebral cortex, giving an unprecedented view into the structural organization of brain tissue at the supracellular, cellular, and subcellular levels. scim.ag/6WK

A team led by scientists from Harvard and Google has developed a 3D, nanoscale-resolution map of a single cubic millimeter of the human brain that contains approximately 57,000 cells, 230 millimeters of blood vessels, and nearly 150 million synapses.

#neurons #neurology #science

'These mRNAs are nothing than small scale, nanoscale machines right? They're programmed, and they're injected.'

Clip: Ian Akyildiz Internet of Bio Nano Things - Advanced Technology Res... youtu.be/MQ3dgOOZyE0?si… via YouTube

Nanoscale reconstruction of 1mm^3 of human cortex. Best of all, they dropped a website where you can freely explore the results in 3D (like below: the 4000 synaptic inputs to one pyramidal cell). How far we've come, and how much left there is to learn.

h01-release.storage.googleapis.com/gallery.html

A petavoxel fragment of human cerebral cortex reconstructed at nanoscale resolution

Just published in Science.

This is spectacular work!

The authors obtained a 1 mm3 sample of the human temporal cortex from an individual undergoing epileptic surgery. This sample was then

Well this is creepy. It could be useful. But I don't really see any limit to the size of a structure like this. These could be made at the nanoscale for sure. Manipulated by 5G possibly? hard to imagine manipulating an individual one of these or how that's done? But apparently

The complexity of a 1mm3 section of the human brain - 57k cells, 230mm of blood vessels, and 150 mn synapses=>1,400 TB of data

From: A petavoxel fragment of human cerebral cortex reconstructed at nanoscale resolution, science.org/doi/10.1126/sc… : Harvard and Google

Biosensors-based devices are transforming medical diagnosis of diseases and monitoring of patient signals.

The use of nanotechnology for design of nanoscale devices such as, nanochips, nanointerface, nanosensor, nano-routers and nano-antennas in different field such as ...

FQxI has awarded over $27 million dollars in Zenith Grants to theorists and experimenters. #FQxI #ResearchGrants #Science

And congratulations Dr. Natalia Ares on your professorship 😉qspace.fqxi.org/videos/324/nat… Natalia Ares group

Remarkable accomplishment by my colleague Jeff Lichtman et al.: A petavoxel fragment of human cerebral cortex reconstructed at nanoscale resolution | Science science.org/doi/10.1126/sc…

I am so happy to share this awesome collaboration with my good friend Prof. Brian Aguado and his team 🎉

Y chromosome linked UTY modulates sex differences in valvular fibroblast methylation in response to nanoscale extracellular matrix cues biorxiv.org/content/10.110…

Terahertz Communications and Sensing for 6G and Beyond: A Comprehensive View

Nanoscale Biosensors injected into the Human Body

#InternetofNanoThings

#IntraBodyNanoSensorNetwork

#NanoBioSensors

#MedicalBodyAreaNetwork

Researchers have generated a nanoscale-resolution reconstruction of a millimeter-scale fragment of human cerebral cortex, giving an unprecedented view into the structural organization of brain tissue at the supracellular, cellular, and subcellular levels. scim.ag/6Zk

2018

Nanoscale platforms have expanded the feasibility of mRNA-based therapeutics, and enabled its potential applications to protein replacement therapy, cancer immunotherapy, therapeutic vaccines, regenerative medicine, and genome editing.