The RPI team made the paper battery by first growing an array of carbon nanotubes
on a silicon surface and then covering the array in dissolved cellulose (the main constituent of paper).
The research team first grew the MgO - based MTJ
on a silicon surface, and then etched away the underlying silicon.
The random presence or absence of a single electricity - conducting dopant atom
on the silicon surface can radically change the behavior of a transistor and lead to errors, even in digital mode.
The above image, taken by the group at Cambridge, shows a crystallite of titanium silicide formed
on a silicon surface.
Then, we explore the adhesion properties of eumelanin molecules
on a silicon surface and extract the electronic structure of the resulting system.
They also successfully tested their method
on a silicon surface.
Samsung develops a new technology, creating a silicon cathode material for coating high crystal graphene
on a silicon surface to usher in an energy density that is nearly two times more than existing lithium batteries.
Not exact matches
If your countertops are granite or another
surface that can handle high heat, then you can just place the
silicon mats directly
on your countertops.
Capasso's research group announced the finding in 2012, but at that time, they had only demonstrated the coating
on relatively smooth, flat
surfaces like
silicon.
Microelectrodes in a clear
silicon array rest
on the brain
surface.
Building such systems represents a daunting task, as all established camera technologies rely
on bulk glass lenses and detectors constructed
on the planar
surfaces of
silicon wafers which can not be bent or flexed, much less formed into a hemispherical shape.
Bawazer's team was looking to select proteins that could draw
silicon out of the solution to build silica structures around the beads, while still allowing access to the DNA
on the
surface of the bead.
Indeed, when his team created an array of pyramid - shaped wells
on the
silicon's top
surface and a mirrorlike flat bottom
surface, many more newly created photons bounced around inside the device until they escaped, the team reports in the 23 August issue of Nature.
When they then shine light
on the base of an array of pyramids, it passes through the polymer and out the tips onto a photosensitive layer atop a
silicon surface.
Materials scientist Anahita Azarpira, a doctoral student in Dr. Thomas Schedel - Niedrig's group, prepared these samples in such a way that carbon - hydrogen chains
on the
surface of the
silicon were formed.
IBM calls dubs it «racetrack memory,» because it uses magnetic domains to store information in columns of magnetic material (nanoscale «racetracks») arranged
on the
surface of a
silicon wafer.
The team of scientists from Brookhaven Lab, Stony Brook University, and the National University of San Luis in Argentina synthesized 2D aluminosilicate (composed of aluminum,
silicon, and oxygen) films
on top of a ruthenium metal
surface.
Two years ago, Wang came up with the idea of creating topographical contrasts
on a
silicon wafer by etching the wafer
surface with micropillars and arranging the pillars in zones that vary according to the density of the pillars and the contact angle of the pillars with the
surface.
You are able to come up with wonderful crackpot notions like Wil McCarthy's concept of Programmable Matter — that if you were to adjust the electrons
on the
surface of a sheet of
silicon and control them through simple voltages, you could effectively make that
surface of
silicon behave like iron.
In 2013, the researchers developed a fluorescent molecule called
silicon - rhodamine (SiR), which switches «
on» only when it binds to the charged
surface of a protein like the ones found
on the cytoskeleton.
It senses the weak van der Waals forces between the tip of a cylindrical
silicon probe — just 0.1 micrometres across — and atoms
on the
surface of the chip.
This is a scanning electron microscopy image of a calcite crystal generated in the presence of the sea urchin protein rSpSM50
on a
silicon wafer showing organized nanotexturing
on exposed
surfaces.
Advanced heterojunction cells shall affront this problem:
On top of the wafer's
surface, at temperatures below 200 °C, a layer of 10 nanometer disordered (amorphous)
silicon is deposited.
What the physicists discovered was surprising: although the uppermost layer of the
surface always consisted purely of SiO2, the tip of the atomic force microscope experienced different frictional forces depending
on the thickness of the
silicon dioxide layer.
These include spare electrons that are left over
on the
surface (inside the crystal they would be involved in
silicon -
silicon bonding).
They repeated the test
on flat
surfaces of gold,
silicon, diamond - like carbon and Teflon.
But a
surface can also have a strong effect
on a semiconductor, and as porous
silicon has an enormous
surface area — between 200 and 1000 square metres for each cubic centimetre of the material — many researchers believe a second theory: that the
surface is responsible for efficient luminescence.
To improve the efficiency of waveguides — devices that guide light
on the
surface of
silicon optical computer chips — a complex balance must be struck.
Protein
on (
silicon) chip technology for nanoscale
Surface Plasmon Resonance measurements is currently ongoing.
We have also created an indium atomic layer two - dimensional material
on the
surface of
silicon, and have clarified for the first time ever that macroscopic supercurrents and Josephson quantum vortices exist in this atomic layer.
The nanoparticles naturally grow a hard shell of
silicon oxide
on their
surface, much like stainless steel forms a protective layer of chromium oxide
on its
surface.
The TNT treatment process starts with a dime - sized
silicon chip being placed
on the
surface of the skin.
Nanoflowers, each smaller than the thickness of a dollar bill, sprout up spontaneously
on a
surface dipped in salts and
silicon.
To make the spinach cell, Vanderbuilt researchers, «extracted PS1 from spinach into an aqueous solution and poured the mixture
on the
surface of a p - doped
silicon wafer.
Apple told Pocket - Lint that it's «not unusual» for speakers with
silicon bases to leave marks
on treated wooden
surfaces.