“Implantable silicon-based devices have the potential to serve as tools for mapping and treating epileptic seizures, providing more precise control over deep brain stimulation, as well as other neurological applications,” says Story Landis, PhD, director of the National Institute of Neurological Disorders and Stroke, which provided support for the study. The team tested the new devices – made of nanoscale, flexible ribbons of silicon embedded with 288 electrodes, forming a lattice-like array of hundreds of connections – on the heart of a porcine animal model. The tissue-hugging shape allows for measuring electrical activity with greater resolution in time and space. The new device can also operate when immersed in the body’s salty fluids. The devices can collect large amounts of data from the body, at high speed. This allowed the researchers to map electrical activity on the heart of the large animal…   read more

Piezoelectric nanogenerators to harvest energy from motion

Based on arrays containing as many as 20,000 zinc oxide nanowires in each nanogenerator, the devices can produce up to 1.2 volts of output voltage, and are fabricated with a chemical process designed to facilitate low-cost manufacture on flexible substrates. Tests done with nearly one thousand nanogenerators – which have no mechanical moving parts – showed that they can be operated over time without loss of generating capacity…   read more

Functional nanomaterials for medical devices

“Atomic layer deposition is a technique that can be used to create thin films for coating metals or ceramics, and is especially useful for coating complex nanoscale structures,” says Dr. Roger Narayan, the paper’s lead author. “This paper shows how atomic layer deposition can be used to create biologically functional materials, such as materials that have antibacterial properties”…   read more

Berkeley Scientists Report Universal Method for Creating Nanoscale Composites

Researchers at Berkeley Lab’s Molecular Foundry, in collaboration with researcher at the University of California, Berkeley, have shown how nanocomposites with desired properties can be designed and fabricated by first assembling nanocrystals and nanorods coated with short organic molecules, called ligands. These ligands are then replaced with clusters of metal chalcogenides, such as copper sulfide. As a result, the clusters link to the nanocrystal or nanorod building blocks and help create a stable nanocomposite…   read more

Cris Orfescu was born in Romania and has a strong science background common for so many from the former Eastern Bloc. But he is also a self taught artist and that part of him has blossomed since he immigrated to Los Angeles. He blends science and art in what he calls NanoArt. Orfescu provides high-resolution electron scans of nanosculptures he creates and structures occurring naturally, and encourages artists to alter the images and create even more new NanoArt.

I am the author of an upcoming book, The New Polymath, which features nanotechnology. A polymath is Greek for a Renaissance person like Leonardo Da Vinci or Ben Franklin, good at many disciplines. The New Polymath, in my book, is an enterprise which amalgamates 3,5,10 strands of infotech, biotech, nanotech, cleantech, healthtech to create innovative new solutions. I am a former Gartner analyst and write an innovation blog which catalogs over 40 categories of technology from mobile computing to genetics. I had been aware of Orfescu’s NanoArt festivals and thought it would be appreciative to include his work in the section on nanotech.

I have another chapter which imagines all the hundreds of innovators profiled in the book brought together at a conference in Italy. And, as in the movie Field of Dreams, 10 Polymaths from history show up at the conference, and Michelangelo shows interest in nanoart.

Indeed the book ends as follows:

In another realm, Michelangelo looked down and saw the Piazza della Signoria grow more crowded with tourists, and he turned his attention back to reinterpreting David in nanoart. Then he sighed that six centuries later he still had to worry about new masterpieces Leonardo might create in this new art form.

My book comes out in June from John Wiley and Co. You can preorder now at Amazon. Also, you can see on-going excerpts on the Facebook page and the LinkedIn group for the book.

Invigorating as NanoArt is, I think you will enjoy reading about other innovators in corporate labs and also in places you may not expect much innovation – in the farms of Ireland, the streets of Estonia, the hills of Macedonia and the backroads of Rwanda.