Sentences with phrase «as electronic materials»
One important element of this plan is that semantic web standards provide for description of physical as well as electronic materials, and they have the ability to describe diverse sources of information including print books and people to the level of individual items, so materials can be included in the developing system without any barriers to discovery regardless of format.
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Indeed, graphene has even been touted as being one of the best alternatives to silicon as the electronic material of choice in the future.
Not exact matches
SolarCity ($ SCTY), MEMC Electronic Materials ($ WFR), and JinkoSolar Holding ($ JKS) have been exploding higher as well.
Clean Harbors finds beneficial uses for your manufacturing by - products, such as creating supplemental fuels created by blending waste or separating out usable materials from disassembled electronic equipment.
Upon separation from employment with the Company or on demand by the Company during my employment, I will immediately deliver to the Company, and will not keep in my possession, recreate, or deliver to anyone else, any and all Company property, including, but not limited to, Company Confidential Information, Associated Third Party Confidential Information, as well as all devices and equipment belonging to the Company (including computers, handheld electronic devices, telephone equipment, and other electronic devices), Company credit cards, records, data, notes, notebooks, reports, files, proposals, lists, correspondence, specifications, drawings, blueprints, sketches, materials, photographs, charts, any other documents and property, and reproductions of any and all of the aforementioned items that were developed by me pursuant to my employment with the Company, obtained by me in connection with my employment with the Company, or otherwise belonging to the Company, its successors, or assigns, including, without limitation, those records maintained pursuant to Section 3.C.
Subject to any applicable terms and conditions set forth in Realty Income's Privacy Policy, any communication or other material that you send to Realty Income through the Internet or post on a Realty Income website by electronic mail or otherwise, such as any questions, comments, suggestions or the like, is and will be deemed to be non-confidential and Realty Income shall have no obligation of any kind with respect to such information.
It seems as though 99 percent of Facebook users post an astounding amount of highly personal and inappropriate material on the electronic venue, accessible to family, employers, and the general public.
The future of evolving material beings, both non-living elements and compounds, and living forms, would be completely defined, determined and inevitable: as blind and as pre-fashioned as the multitudinous parts and functions that define a complex electronic machine.
Maintain supply of electronic and hardcopy promotional material e.g. annual reports; Update the inventory of Mexico's office as well as keeping up - to - date cards responsibility;
In so far as is lawful, submission of material for publication by electronic or other means by Motor Sport Magazine or an associated company constitutes the assignment of intellectual Property ownership rights from the originator to the Publisher.
We buy one - time print publication rights for Chicago Parent with exclusive first North American publishing rights as well as electronic rights allowing us to place the material on our website.
Now, back to the question of attorney - client privilege: If investigators seize privileged materials, such as electronic communications, in a raid, that kicks into gear a special process that creates a «clean team» to review those items.
A spokeswoman for the state's Office of General Services said the firm was hired to «extract and produce electronic materials» as «part of the state's efforts to assist law enforcement agencies.»
With this kit, children discover «why» as well as «how» common electronic components work through the use of everyday materials.
Its unique thermal, chemical and mechanical stability means it can also be used as an absorbent, in electronic device fabrication, as a cutting tool material or as an alternative for surgical material for implants.
5.1.2 Systematically or regularly make print or electronic copies of multiple extracts of the Licensed Materials for any purpose, except as provided in the Usage Rights section above;
An outstanding example is the time - reversal invariant topological insulator, relatively new class of material with peculiar electronic properties, that is well understood as a symmetry - protected topological (SPT) material.
Licensed Materials: The electronic journals / resources subscribed to by Licensee, as set out on the Price Quote Spreadsheet approved by the Licensee and Publisher and / or the subscription invoice.
Just as today's engineers design integrated circuits based on the known physical properties of materials and use them to create electronic devices with amazing capabilities, tomorrow's synthetic biologists are poised to design and build biological systems that are custom - tailored to make a better world.
However, rGO is a semiconductor material, which can be used to make electronic devices such as integrated smart sensors and optic - electronic devices.
His lab has produced a dizzying array of miniature biocompatible electronic devices that use soft materials, such as plastics and biological tissues.
Natelson's research involves complicated electron flow through single - molecule transistors, as well as organic semiconductors — carbon - based materials that are intended to replace silicon transistors in some electronic devices.
«The correspondence between atomic structure and electronic properties is of course what happens in real materials as well, but here we have complete control over the structure.
The paper, published in the journal Nature communications reports a successful observation of the near - infrared (NIR) pulse - induced multiple electronic dipole oscillations (periodicities of 667 - 383 as) in the Cr: Al2O3 solid - state material.
«Ultimately, we are trying to develop new surface chemistry that allows us to build higher ordered architectures on surfaces, and these might lead into applications such as building electronic devices, data storage devices or logic gates out of carbon materials.»
But tracking how this process alters the electronic structure and associated nanoscale distortions as the material transforms from insulator to pseudogap phase and eventually full - blown superconductivity is no easy task.
Published by the Condensed Matter research group at the Nordic Institute for Theoretical Physics (NORDITA) at KTH Royal Institute of Technology in Sweden, the Organic Materials Database is intended as a data mining resource for research into the electric and magnetic properties of crystals, which are primarily defined by their electronic band structure — an energy spectrum of electrons motion which stem from their quantum - mechanical properties.
Boasting a wide array of behaviors, including electronic, magnetic and superconducting, these multifunctional materials are poised to expand the way we think about the functions of traditional silicon - based electronic devices such as cell phones or computers.
At the time, lithium was preferred to sodium as the material of choice and it has been widely used ever since for portable electronic devices such as tablets, laptops and electric vehicles.
No one may reproduce any of these materials, either in print or electronic form, without prior written permission from the owner (s) except as detailed below.
Out of the 230 space groups in which materials can exist in nature, 157 are non-symmorphic, meaning they can potentially host interesting electronic behavior such as the hourglass fermion.
The model is based on intrinsic electronic characteristics of materials used as battery anodes.
Addition of as little as 0.1 % molybdenum doping caused the resistivity of the telluride - type crystals to decrease dramatically at low temperatures, while they also demonstrated high thermoelectric powers that were closely related to the strongly one - dimensional electronic structures of the materials.
The new method should reduce the time nano manufacturing firms spend in trial - and - error searches for materials to make electronic devices such as solar cells, organic transistors and organic light - emitting diodes.
In an e-mail, Fuller - Mora and Hess also recommended that researchers in HTS consider the Division's programs in Ceramics, Electronic Materials, Metals, and Solid State Chemistry as potential sources.
«It is important to understand the fundamental processes involved in the molecular electrical doping of organic semiconductors more precisely,» explains Salzmann, continuing: «If we want to successfully employ these kinds of materials in applications, we need to be able to control their electronic properties just as precisely as we customarily do today with inorganic semiconductors.»
Dubbed as the material of the future, graphene exhibits unique electronic properties that can potentially be employed for a wide range of applications such as touch screens, conductive inks and fast - charging batteries.
Scientists studying these materials at Brookhaven and elsewhere have discovered special types of electronic states, such as «charge density waves,» where charges huddle to form stripes, and checkerboard patterns of charge.
The germanium nanowires produced by this method have superior electronic properties compared to silicon and can be used as high - capacity anode material for lithium - ion batteries, but the nanowires were previously too expensive and difficult to produce.
This latest experimental evidence could elevate the material's use as a test subject for next - gen applications, such as a new breed of electronic devices that manipulate its spin property to carry and store data more efficiently than present - day devices.
Strontium cobaltites are just one example of a class of materials known as transition metal oxides, which is considered promising for a variety of applications including electrodes in fuel cells, membranes that allow oxygen to pass through for gas separation, and electronic devices such as memristors — a form of nonvolatile, ultrafast, and energy - efficient memory device.
An added benefit of recycling electronic materials — be they copper, lead or silicon — is that we will not have to mine as much from the earth, says Bob Dellinger, the EPA Office of Solid Waste's director of hazardous waste identification.
When such e-waste is exported to places such as Guiyu in China, it ends up in vast recycling centers where laborers earn a pittance smashing, cracking, melting and cooking old electronic goods to extract the valuable materials they hold, ranging from gold to plastics.
However, in certain materials such as the monolayer TMDs, electrons can be selectively placed into a chosen electronic valley using optical excitation.
Despite having electronic properties superior to other 2D materials such as graphene (2D carbon) and silicene (2D silicon), phosphorene's potential for application in high - performance devices has been limited by how difficult it is to reliably produce commercially viable quantities of it in large, thin, high - quality nanosheet form.
The bismuth selenide / BSCCO material was brought to the ALS to study the electronic states on its surface using a technique known as ARPES, for angle - resolved photoemission spectroscopy.
«New fascinating phenomena have emerged from complex electronic materials every few years, and some of them have become valuable technologically,» said Marc Kastner, a condensed matter physicist and the dean of the School of Science at the Massachusetts Institute of Technology in Cambridge, as well as a science adviser to the Moore Foundation.
The researchers viewed the porous, conductive material as a perfect electrode for supercapacitors or electronic circuits.
Organic electronic devices such as OLEDs and organic solar cells use thin films of organic molecules for the electrically active materials, making flexible and low - cost devices possible.
Nanoscale computer parts, such as processors, are difficult to manufacture this way because of the challenges of combining electronic components with others made from multiple different materials.