Sentences with phrase «more application materials»
After narrowing down the applicants, ask those you are interested in to complete more application materials.
https://www.medreps.com/ Not exact matches
While both Volvo and Imperial College concede that these applications are still a long way off, the potential alone is more than enough to get anyone geeked - up about the future of materials research.
A second and more controversial pool of materials which the Commission should develop into mutually useful programs might include personal hygeine, public health, human geography, the races of mankind, technology and its applications to economic development and — history.
Today, AHD supplies raw materials to more than 650 customers for diverse applications, such as foods and beverages, dietary supplements, cosmetics and pet products.
Visitors also get the opportunity to take a journey through the world of Colouring Foods — from the selection of raw materials all the way through to the application of the final concentrates in extruded sweets, hard and soft dragées or colourful snacks like popcorn and many more.
The new materials have undergone stringent lab testing to verify their ability to contain applications that use more volatile ingredients.
By turning cell biology into an engineering discipline, CCC aims to develop new chemicals and materials for medical and consumer applications, while at the same time training a more diverse research and manufacturing workforce.
«Based on these observations of catalytic converter materials under real conditions, findings can be transferred much more quickly to application,» Gänzler points out.
In her address, Wyndham underscored that the right to science does more than deliver the material benefits of its applications but also produces «logical and empirically - based» knowledge that can inform policymakers and individuals in making personal decisions about everything from what to eat to whether to use a seat belt.
So a team of researchers led by mechanical engineer Scott White of the University of Illinois, Urbana - Champaign, set out to see if they could give plastic composites — materials composed of two or more components that are typically used for the most demanding applications — a bit more longevity.
Scientists hope that carbon may make a more efficient band - gap material — a material that excludes light of certain wavelengths and is therefore the photonic counterpart of a semiconductor — in future optoelectronics applications.
In materials science, researchers rely on a similar phenomenon to study the structures of materials that will eventually be used in chemical catalysis, batteries, solar applications and more.
The overall figures aren't the most important finding anyway, she says; the paper looked at other aspects of the application process in more detail, including NWO's instruction and evaluation materials, which they found to contain «gendered» language favoring male applicants.
Related sites Materials chemistry group at the University of Cambridge For more about industrial applications of titanium
«Studying the formation and evolution of jets in metals and, more generally, how materials at extreme conditions respond using X-ray phase contrast imaging is relevant to such things as meteorite impacts, the performance of explosives and detonators, understanding crack nucleation and propagation in materials, and the development of new materials with tailored properties whose applications include automotive and airplane components, lighter and more impact - resistant armor, and debris shields in space, to name a few.»
In 2013, Lewis was awarded a Fulbright that he used to travel to the Czech Republic explore ways to more quickly design materials for solar applications.
«The Materials Genome Initiative paradigm will revolutionize the way we pursue new technologies with more efficient research teams that focus more on the application - driven properties of mMaterials Genome Initiative paradigm will revolutionize the way we pursue new technologies with more efficient research teams that focus more on the application - driven properties of materialsmaterials.
«Organic - conjugated polymers are emerging as a materials class for energy - related applications, enabling a path to a more sustainable energy landscape without the need of energy - intensive, expensive and sometimes toxic metal - based compounds,» the researchers wrote, concluding that «a model polymer, P (NDI2OD - T2), was stably and reversibly n - doped to a high doping level of 2.0, a significant progress for electron - transporting π - conjugated polymers.
Though I suspect we will continue to find even more applications for these kinds of materials.
«High - speed AFM is ideally suited for some medical applications as it can process materials quickly and provide hundreds of times more resolution than comparable imaging methods.»
More information about the functionality and potential applications of the OMDB database can be found in the article by S. S. Borysov et al, «Organic Materials Database: an Open - Access Online Database for Data Mining,» PLOS ONE, to be published 2017.
This year it is held in Sweden with focus on electronic applications of the two - dimensional material with the extraordinary electrical, optical, mechanical and thermal properties that make it a more efficient choice than silicon in electronic applications.
These efforts range from basic research about how polymers and other materials will react during the heating and deposition process to more industrial applications, such as developing a lower - cost, high - temperature process for working with thermoplastics used to make air and space vehicle components.
Two - dimensional phosphane, a material known as phosphorene, has potential application as a material for semiconducting transistors in ever faster and more powerful computers.
This totally unexpected result means that the material becomes more ionic upon application of the external field, a behavior in contrast to other ionic materials such as LiBH4 or NaBH4.
The thin - film solar cells can be used in more flexible applications, such as so - called solar shingles, roofing materials that double as electricity generators.
«Although some aspects of normal state spin electronics, or spintronics, are more efficient than standard semiconductor electronics, the large - scale application has been prevented because the large charge currents required to generate spin currents waste too much energy,» said Professor Mark Blamire of Cambridge's Department of Materials Science and Metallurgy, who led the research.
The greater the nonlinearity, the more promising the material for real - life applications.
The doping solves two problems: It makes the material more conductive for applications like transistors and sensors, and at the same time improves the quality of the materials by passivating the defects called sulfur vacancies.
The result opens the door for more careful study of this region of materials, with a view to finding a material that can offer just the right properties for certain photonics applications.
«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.»
Researchers have now demonstrated the ability to create amorphous metal, or metallic glass, alloys using three - dimensional (3 - D) printing technology, opening the door to a variety of applications — such as more efficient electric motors, better wear - resistant materials, higher strength materials, and lighter weight structures.
«Syntactic foam sandwich fills hunger for lightweight yet strong materials: New way to expand the applications of metal matrix syntactic foams to autos, ships, trains, and more.»
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.
But many applications would demand electroactive materials that grow by more than just a fraction of a percent.
Foreseeable applications include integrating lasers, sensors, wave guides and other optical components into so - called lab - on - a-chip devices now used for disease diagnosis, screening experimental materials and drugs, DNA forensics and more.
«We expect that it provides guidelines for more accurate predictions in engineering applications, including better designs to compensate for material and system failure by taking into account the oxidation process.»
The researchers recently reported more detailed results in a patent («Fullerenes, a light source material», UK Patent Application 922 5831).
Dr. Lackner's research involves looking for ways of removing CO2 using advanced materials that may prove more effective in the long run but are not yet ready for commercial application.
The Technical Committee on Biomedical Acoustics, one of the most diverse groups in the Acoustical Society of America, is comprised of individuals whose interests cover a broad range of diagnostic and therapeutic applications or, more generally, the interaction of sound with biological materials.
«Graphene is used in many areas of research and potential applications for electronics, solid - state devices, biosensors, coatings and much more for numerous industries where there are opportunities to make quantum improvements in methods and materials.»
«The promise of NiDOBDC and similar metal - organic frameworks is that we will be able to make faster and more sensitive separation and monitoring equipment,» said Grate, who has been working in materials and systems for sensing and nonproliferation applications for his entire career at PNNL.
Understanding the kinetics and mechanisms causing intergranular oxidation at the atomic level can improve manufacturing for more durable, corrosion - resistant materials designed for safe application in service environments, for example, in a light - water (nuclear) reactor within its decidedly high - temperature, reactive environs.
As the Editor - in - chief of npj 2D materials and applications I will strive to keep a balance and select the best papers on «more established» and «new» 2D materials, being reported on for the first time.
The Application may provide a means for you to access one or more websites, other applications, or other products and services offered by Showtime Networks (collectively, the «Services»), and audio and video materials, photographs, text, graphics, logos, layouts, designs, interfaces, software, data and other content associated with the Services («Content»).
In conclusionAlthough «instructional learning» does have its uses in eLearning (especially when showing people how to perform some tasks on applications), I feel that using «learning through discovery» is far more successful in making people learn and remember concepts, theories and meanings.If you want people to be able to learn more easily, understand and remember the things you are trying to teach them, I recommend that you design your courses and material using the «learning through discovery» method.
Questions can open up a discussion about why the results turned out the way they did, helping teachers and students think of new examples and applications to make the material more understandable.
Tools built with collaboration and high engagement in mind allow customized learning tools specific to the material being taught, further increasing engagement, increasing knowledge retention and allowing more immediate application of learning while fostering increased peer interaction.
Application materials and more details about the program are now available online.
This course will be of great interest to all human resources, teaching and training professionals who are involved in training, instructional design and e-learning, and who would like to learn more about important aspects of instructional systems design and their use and application in designing and developing highly effective instructional materials for courses.