Nanostructured, enhanced with silicon oxide, covered
with a nanometer - thin layer of aluminum oxide and cobalt oxide — these treatments optimize the electrochemical properties of the material, but are nonetheless simple to apply.
The sheets were then synthesized
with nanometer - sized gold nanoparticles that can also absorb visible light.
Dr. Stephen Jett, Explora Portal to the Public Scientist, will show kids how Atomic Force Microscopy allows us to «see» structures
with nanometer (or better) resolution using needles and mirrors.
When working
with nanometer - sized ions, miniscule changes to the size and composition can dramatically change their performance.
Meshes made from fibers
with nanometer - scale diameters have a wide range of potential applications.
They examined highly ordered materials
with nanometer - sized pores along with nanofoams and other less structured materials.
FRET (Forster Resonance Energy Transfer) is a powerful molecular biology tool that has been used for detecting conformational dynamics of macro-molecules such as DNA, RNA and proteins
with nanometer resolution.
The lever can be easily modified with desired binding sites at its top end and along its flanks and hence can serve as a scaffold for the positioning of ligand molecules
with nanometer accuracy.
Similar to using 3D printer, more material can be removed to create complex 3D structures
with nanometer precision by modulating the force or by readdressing individual spots.
Rene Schneider (Diez, MPG)-- «A novel parabolic prism - type TIR microscope to study gold nanoparticle - loaded kinesin - 1 motors
with nanometer precision» (2013)
Abstract: Meshes made from fibers
with nanometer - scale diameters have a wide range of potential applications, including tissue engineering, water filtration, solar cells, and even body armor.
The growth can be controlled by varying the number of building blocks added or by changing the solution pH. Repair using peptoid monomers with differing structure and chemistry demonstrated that the lipid - like design of these membranes could essentially be rewritten by inserting patterns of new distinct functional groups into
them with nanometer - scale precision to produce multifunctional two - dimensional materials by design.
«This is the first time anyone has demonstrated the ability to rationally design crystal depth
with nanometer precision, up to 80 nm in this study,» Ke said.
The bulk of the 45 - micron - thick material is made from polyethylene (PE), an inexpensive plastic, which in this case is shot through
with nanometer - sized holes.
Not only can this technique detect magnetic fields
with nanometer accuracy, it can determine their force as well, opening up an extraordinary range of applications.
DNA structures can be fabricated
with nanometer - precision, and most importantly, other molecules such as RNA, proteins, peptides and drugs can be anchored to them with the same resolution.
By correlating the local effects of this emitted light with the position of the electron beam, spatial images of these effects can be reconstructed
with nanometer - scale resolution.
Most of them dealt
with nanometer - scale systems derived either from biology or from technology and I had the idea of bundling them together into a book.
We'll end up with a population that's familiar
with nanometer - scale projects.»
The technique allows scientists to probe and track biological agents
with nanometer - scale resolution.
Electron microscopes
with nanometer resolution are widely used, but they cost millions of dollars, and preparing a sample for viewing is painstaking.
Not exact matches
Intel has teased the large - scale release of these 10 -
nanometer chips for years, promising they'd deliver better performance
with lower power usage than chips built
with the company's 14 -
nanometer technology, which have been shipping since 2014.
Dealing
with engineering at the
nanometer scale and below requires probabilities.
I surely don't meet that standard but my encounter
with Christ leads me to move closer to it, even if by
nanometers as I grow in faith and grace.
Dreisbach lofted a perfect spiral to Hayes, who somehow managed to get his left foot in bounds
with no more than a
nanometer to spare.
It was the CSR program that earlier this year unveiled a breakthrough computer chip based on 5
nanometer architecture
with the smallest transistors ever created.
The viral titan is about 750
nanometers across
with a genetic pantry boasting around 1.2 million base pairs of DNA, the information - toting bits often represented
with A, T, C and G. Influenza A, for example, is roughly 100
nanometers across
with only about 13,500 base pairs of genetic material.
Stiff DNA tripod units enabled the assembly of wireframe polyhedra
with edges 100
nanometers in length.
X-rays are a form of electromagnetic radiation
with a wavelength in the range of 10 to 0.1
nanometers, corresponding to frequencies in the range 30 to 3000 PHz.
The new research focused on small nanoparticles — those
with diameters of 5 to 15
nanometers.
Because the beads are only about 100
nanometers across, slightly smaller than a wavelength of visible light, the collection diffracts light, making the gel shimmer
with an iridescent glow.
The breakthrough discovery is the synthesis of one - dimensional, carbon nanothreads
with diamond - like bonding only 0.6
nanometers in diameter.
The viral titan is about 750
nanometers across
with a genetic pantry boasting around 1.2 million base...
«If we want to compete
with current state - of - the - art technology, we have to go for skyrmionic objects [that] are much smaller in size than 100
nanometers,» Wiesendanger says.
The team's novel fabrication technique involves patterning a solar absorber
with tiny holes
with diameters less than 400
nanometers (that's roughly 200 times smaller than the width of a human hair), cut into the absorber at regular intervals.
They saw that the strands were shot through
with lead - sulfide crystals averaging 4.8
nanometers in size — about the same as the so - called quantum dots studied by researchers today.
«Our infrared shielding coating,
with 10 -
nanometer antimony - doped tin oxide nanoparticles, blocks more than 90 per cent of near - infrared radiation, while transmitting more than 80 per cent of visible light,» says Huang.
In October 1999, Nichia began selling a five - milliwatt violet laser
with a wavelength of 405
nanometers, the shortest ever for a semiconductor laser.
Unlike traditional solar absorbers, this absorber requires very little material and consists of only two layers: a semiconductor film and a reflective metallic layer,
with a total thickness of 170
nanometers.
The researchers used the state - of - the - art nanofabrication technology to make arrays of electrodes
with a width of only 100
nanometers (0.00001 centimeters) to excite sound waves at an unprecedented high frequency that is higher than 10 GHz, the frequency used for satellite communications.
One promising material is one that's filled
with tiny holes that range in size from about a micron (10 - 6 meters) to about a
nanometer (10 - 9 meters).
A team there recently printed what they call silver nanowire ink — a paste composed of 100 -
nanometer - wide wires, jumbled together — onto paper made
with fibers slightly wider than common paper.
The researchers worked on the
nanometer scale — one billionth of a meter —
with carbon nanotubes.
«This is a way of coloring something
with a very thin layer of material, so in principle, if it's a metal to begin
with, you can just use 10
nanometers to color it, and if it's not, you can deposit a metal that's 30 nm thick and then another 10 nm.
The first model describes a material filled
with holes of random sizes, ranging from microns to
nanometers in diameter.
To see the way the lithium - ions reacted
with the nickel oxide, the scientists used a suite of custom - written software to digitally reconstruct the three - dimensional nanostructures
with single -
nanometer resolution.
The hologram is an array of tiny silicon skyscrapers, 370
nanometers tall
with footprints 190
nanometers by 100
nanometers.
They can therefore be employed to observe particles
with dimensions of less than 1
nanometer, such as atoms.
But by tinkering
with that alignment — spacing it out
with other materials or embedding it in a lattice composite at the nanoscale (a
nanometer is one billionth of a meter)-- scientists can potentially exponentially increase the strength of these magnets: The stronger the magnet, the fewer of them you need.
The study showed that seven -
nanometer copper particles deposited on graphene doped
with pyridinic nitrogen (an arrangement that causes nitrogen atoms to be bonded to two carbon atoms) had the best performance.