The phrase
"fabrication methods" refers to the techniques or procedures used to create or manufacture something.
Full definition
The design development of the house will embrace the latest locally available 21st -
century fabrication methods and manufacturing processes as an integral part of its internal and external environment.
«Minimalist swimming microrobots:
Fabrication method for swimming microrobots with minimalist geometric requirements, reducing technological constraints.»
The advance should allow researchers to use simple, low
cost fabrication methods such as screen printing and inkjet printing to lay down all the different materials needed to create displays, says Yang.
Low - cost serial production of the sensors is feasible if advanced nano -
fabrication methods such as nano - printing or optical trapping are used.
Thus, although the conventional
graphene fabrication method of chemical vapor deposition is widely used for the large - area synthesis of graphene on copper and nickel films, the method is not suited for silicon microelectronics, as chemical vapor deposition would require a high growth temperature above 1,000 degrees Celsius and a subsequent transfer process of the graphene from the metallic film to the silicon.
A new
fabrication method enabled researchers to make larger perovskite cells with few defects, helping to maintain efficiency at larger cell sizes.
Using a newly
developed fabrication method, a research team has attained better than a 15 - percent energy conversion efficiency from perovskite solar cells larger than one square centimeter area.
This is the
same fabrication method Qualcomm is licensing from Samsung to manufacture its new Snapdragon 835 processor.
Previous fabrication methods created objects through molds and could have more than $ 10,000 in setup costs, an investment that only pays out if many duplicates were created.
«Japanese paper art inspires new 3 -
D fabrication method: Strategic «Kirigami cuts» in advanced materials result in strength, not failure.»
They propose that the simple, inexpensive, and environmentally friendly process provides an appealing alternative to current
SSA fabrication methods.
According to Kim, the ion implantation technique also offers finer control on the final structure of the product than
other fabrication methods, as the graphene layer thickness can be precisely determined by controlling the dose of carbon ion implantation.
And although
many fabrication methods exist, they all have limitations with regard to scalability, pattern control, or feature resolution.
The technique combines an
old fabrication method — top - down lithography, the same method used to make computer chips — with a new one — programmable self - assembly driven by DNA.
Modern fabrication methods allow to make atomically thin nanomasks which prove to be sufficiently robust for experiments in molecular quantum optics.
Inspiring Prometheus highlighted the creative use of new technologies by Herron students and the Think It Make It Lab's role in engaging them to work on concept design and prototyping, using a variety of
digital fabrication methods.
He employs a unique casting process and
controlled fabrication methods to accentuate the physical properties of these materials, while allowing for an element of chance in their construction.
While the Android Nougat - powered phones may include different systems - on - chip depending on sales region — Qualcomm Snapdragon 835 in some and Samsung Exynos in others — all will have processors made using 10 -
nanometer fabrication methods.
As a potential contact electrode and interconnection material, wafer - scale graphene could be an essential component in microelectronic circuits, but most
graphene fabrication methods are not compatible with silicon microelectronics, thus blocking graphene's leap from potential wonder material to actual profit - maker.
A
new fabrication method enabled researchers to make larger perovskite cells with few defects, resulting in higher efficiency.
«The
same fabrication methods can also be applied to other materials, which could pave the way to realize artificial metasurface structures with custom - made optical properties», adds Saül Vélez.
«
Our fabrication method is simple and universal, so we can adapt it to produce ultrathin nanosheet arrays of a variety of these materials, called metal - organic frameworks.
The reliability of
their fabrication method has (literally) far reaching applications for wide field measurements, ensuring the high contrast detection over relatively large sample areas.
The fabrication methods did not change significantly over time, however.
«I had been working with the 3D printing of stainless steel, so 3D printing was an obvious choice for
the fabrication method.
As long as
the fabrication method and approach are viable, applications such as implants and ingestibles should be possible.»
Precise details of
the fabrication method have not been revealed due to their commercially sensitive nature, says the company.
The first author PhD candidate Kenji Okabe said, «We have investigated how to integrate flexible antenna and high - performance circuits and tried
this fabrication method with process conditions obtained through experiments.»
Compatibility with the most advanced materials (e.g. monocrystalline inorganics),
fabrication methods (e.g. photolithography) and processing techniques (e.g. etching, deposition) from the semiconductor and photonics industries suggest many possibilities for achieving sophisticated classes of 3D electronic, optoelectronic, and electromagnetic devices.
Nowadays, rather than relying on externally - controlled tools, most of
the fabrication methods are based on the self - assembly of carefully chosen / synthesized base units.
To make smaller, simpler microrobots, researchers at Drexel University have developed
a fabrication method which utilizes the minimum geometric requirements for fluid motion — consisting of just two conjoined microparticles coated with bits of magnetic debris.
His fields of expertise include acousto - optic interactions, electron spin resonance and fundamental aspects of disordered semiconductors, laser - induced thin - film crystallization, scanning tunneling microscopy, heteroepitaxial growth, and new
fabrication methods, design and use of complex «smart matter» systems.
Precise details of
the fabrication method have not been revealed due to their commercially sensitive nature, says the company.
The Materials and Fabrication Handbook documents recommendations and requirements for materials,
fabrication methods, and placement for all newly commissioned artwork.
These include «the work of artists charting new territory, works that blur the lines between visual and performing arts, and works that have been seldom — or never — been exhibited because of physical demands such as scale, materials, and
fabrication methods.»