Her aesthetic influences are culled from traditional African and Caribbean visual art and culture; her meticulous fashioning and
application of materials such as raffia, beads, and porcelain to her pieces alludes to women's labor and its past and present importance in global trade.
Not exact matches
A bit
of bonus
material doesn't hurt, either: Chris Lynch, the director
of recruitment and admissions at Alberta Business School, says he welcomes
applications with additional
material appended,
such as a video that highlights the applicant's background in a fun and creative way.
The Secretary shall award a priority review voucher to the sponsor
of a
material threat medical countermeasure
application upon approval by the Secretary
of such material threat medical countermeasure
application.
The sponsor
of a
material threat medical countermeasure
application that receives a priority review voucher under this section may transfer (including by sale) the entitlement to
such voucher to a sponsor
of a human drug for which an
application under section 505 (b)(1) or section 351 (a)
of the Public Health Service Act will be submitted after the date
of the approval
of the
material threat medical countermeasure
application.
DPS Innovations, Shanghai Jion Point Information Technology, ST, Thinkgo Technology, Visualnet and Voyanic showcased a range
of new active and intelligent label and packaging
applications such RFID / NFC labels, nano
materials and specialist inks.
BOBST opens the way to an infinite number
of flexible
material packaging
applications, serving end - user industries
such as:
I / we agree that if any
material change (s) occur (s) in my / our financial condition that I / we will immediately notify BSHFC
of said change (s) and unless Baby Safe Homes Franchise Corporation is so notified it may continue to rely upon the
application and financial statement and the representations made herein as a true and accurate statement
of my / our financial condition.nI / we authorize Baby Safe Homes Franchise Corporation to make whatever credit inquiries / background checks it deems necessary in connection with this
application and financial statement.nI / we authorize and instruct any person or consumer reporting agency to furnish to BSHFC any information that it may have to obtain in response to
such credit inquiries.nIn consideration
of the ongoing association between Baby Safe Homes and the undersigned applicant (hereinafter u201cApplicantu201d), the parties hereto have entered into this Non-Disclosure and Non-Competition Agreement.nWHEREAS, in the course
of its business operations, Baby Safe Homes provides its customers products and services which, by nature
of the business, include trade secrets, confidential and proprietary information, and other matters deemed
material or important enough to warrant protection; and WHEREAS, Applicant, by reason
of his / her interest in Baby Safe Homes and in the course
of his / her duties, has access to said secrets and confidential information; and WHEREAS, Baby Safe Homes has trade secrets and other confidential and proprietary information, including procedures, customer lists, and particular desires or needs
of such customers to which Applicant has access in the course
of his / her duties as an Applicant.nNow, therefore, in consideration
of the premises contained herein, the parties agree as follows Applicant shall not, either during the time
of his / her franchise evaluation with Baby Safe Homes or at any time thereafter either directly or indirectly, communicate, disclose, reveal, or otherwise use for his / her own benefit or the benefit
of any other person or entity, any trade secrets or other confidential or proprietary information obtained by Employee by virtue
of his / her employment with Baby Safe Homes, in any manner whatsoever, any
such information
of any kind, nature, or description concerning any matters affecting or relating to the Baby Safe Homes business, or in the business
of any
of its customers or prospective customers, except as required in the course
of his / her employment by Baby Safe Homes or except as expressly authorized Baby Safe Homes Franchise Corporation, in writing.nDuring any period
of evaluation with Baby Safe Homes, and for two (2) years thereafter, Applicant shall not, directly or indirectly, induce or influence, divert or take away, or attempt to divert or take away and, during the stated period following termination
of employment, call upon or solicit, or attempt to call upon or solicit, any
of the customers or patrons Baby Safe Homes including, but not limited to, those upon whom he / she was directly involved, or called upon, or catered to, or with whom became acquainted while engaged in the franchise evaluation process
of a Baby Safe Homes franchise business.
In subsequent decades, GE and other labs around the world developed additional techniques for creating synthetic diamonds, most
of which have industrial
applications such as drilling or grinding, for which the
material is extremely well - suited.
4.2.6 Supply a Patent Applicant with copies (in print or electronic format)
of individual articles
of the Licensed
Materials and to store print copies
of such articles for the Licensee's internal use, solely in connection with the patent
application process provided each article or excerpt from the Licensed
Materials contains a credit line noting the original appearance
of the article in its appropriate journal; provided any portion
of the Licensed
Materials used for these purposes looks identical to the original
material; and provided
such use does not present any
material from the Licensed
Materials in any manner that implies that Publisher endorses Licensee or any
of the Licensee's products or services;
«It is not often that you get
such a range
of applications from
such a subtle effect,» says Jacob Klein, a
materials scientist at the Weizmann Institute
of Science in Rehovot, Israel.
4.2.5 Submit articles and excerpts from the Licensed
Materials to regulatory agencies in connection with
applications for drug and product approval provided that
such uses do not amount to commercial redistribution for direct profit; provided each article or excerpt from the Licensed
Materials contains a credit line noting the original appearance
of the article in its appropriate journal; provided any portion
of the Licensed
Materials used for these purposes looks identical to the original
material; and provided
such use does not present any
material from the Licensed
Materials in any manner that implies that Publisher endorses Licensee or any
of the Licensee's products or services;
Students learn their
application when analyzing samples for dyes,
such as those occurring on textile fibers; when analyzing samples for the presence
of materials such as petrol which may have been used to start fires; or when testing for the presence
of illicit drugs in a variety
of sample types.
The new
material, described online 25 April in Science by synthetic chemist Andreas Lendlein
of mnemoScience GmbH in Aachen, Germany, and biomedical engineer Robert Langer
of the Massachusetts Institute
of Technology, is composed
of two polymers, each already used separately in clinical
applications such as drug delivery.
Silica is the building block
of semiconductors, so electronics are a natural
application for
such material.
Such new technology will enable advances in battery materials science, flexible battery charging rates, thermal and electrical engineering of new battery materials / technology and it has the potential to help the design of energy storage systems for high performance applications such as motor racing and grid balanc
Such new technology will enable advances in battery
materials science, flexible battery charging rates, thermal and electrical engineering
of new battery
materials / technology and it has the potential to help the design
of energy storage systems for high performance
applications such as motor racing and grid balanc
such as motor racing and grid balancing.
The discovery, to be published April 26 in the journal Nature, could have major implications for a wide range
of applications that rely upon ferromagnetic
materials,
such as nanoscale memory, spintronic devices, and magnetic sensors.
and hence the illustration
of the nature
of the scientific hearings
of the accessions to knowledge which his expedition has produced are drawn from these
materials; but, as other branches
of the information embraced in his observations are unfolded, other theoretical
applications will appear for the advancement
of philosophy and
such of the geographical sciences as meteorology and terrestrial magnetism, concerning which the observations made in the South Polar regions tend in some respects to deliver the deciding stroke in the elaboration.
«Converting waste heat into electric power, for example, using vehicle exhaust, is a near - term «green»
application of such materials.»
Such a concept —
of a precise control
of phase transformations with an atomic spatial precision — should be, in principle, applicable not only to SrNbO3.4 / SrNbO3 but also to other
materials, finding
applications in
material processing and nanodevice fabrication.
Co-author and BC Professor Krzysztof Kempa added that the 3D NEC
materials may enable new research into terahertz optics and unique
applications in areas
such as metamaterials, pushing beyond the scope
of two - dimensional systems that display NEC.
Now, for the first time,
such Weyl particles has been found in a special kind
of material, which is particularly interesting for novel technological
applications: scientists have measured Weyl fermions in a
material with highly correlated electrons.
«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.»
«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 manufacturers
of high - energy
applications such as electric cars and power storage systems seek for new electrode
materials and electrolytes.
Dr Wenxin Wang is trying to uncover therapies for diseases
such as diabetic ulcers and Epidermolysis Bullosa, which causes chronic skin conditions: «We are currently investigating the use
of these new
materials for biomedical
applications such as drug / gene delivery, cross linkable hydrogel
materials and skin adhesives.
MOFs are three - dimensional, coordination networks comprising metal ions and organic molecules and usually are crystalline, porous
materials with many
applications including storage
of gases
such as hydrogen and carbon dioxide.
Researchers are now covering a wide range
of applications with a new modular system: From sonar systems to medical ultrasound technologies and all the way to the high frequency range —
such as for
materials testing.
«And the
materials retain the low density
of the pure semicrystalline polymerso that we can keep the weight
of a structural component low, a property that is critical to
applications such as cars and planes, where weight is a critical consideration.
«This characteristic makes gold nanorods attractive for use in catalysis, security
materials and a range
of biomedical
applications,
such as diagnostics, imaging, and cancer therapy,» says Joe Tracy, a
materials science and engineering researcher at NC State who is senior author
of a recent paper on the improved technique.
Capture
of all the transmitted electrons allows quantitative measurement
of materials properties,
such as internal electric and magnetic fields, which are important for use
of the
materials in memory and electronics
applications.
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.
Moreover, with the advent
of robots in areas
such as health care and retail, in addition to manufacturing, future
applications for sensitive elastic conductive
material that can withstand high strain from stretching are likely to increase at a fever pitch.
«Another, unexpected bonus
of this electrolyte's high energy density is it could potentially expand the use
of flow batteries into mobile
applications such as powering trains and cars,» said the study's corresponding author, Wei Wang, a
materials scientist at DOE's Pacific Northwest National Laboratory.
Their work also could serve as a basis for important practical
applications,
such as the creation
of DNA or RNA - like polymers that could spawn production
of advanced
materials and therapeutic agents.
One field
of application for biological resources is
materials —
such as natural fiber reinforced plastics (NFRP).
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.
«This work provides a fundamental understanding
of an exciting class
of materials with numerous potential
applications in technologies
such as ion batteries, catalysis, and superconductors,» lead author Hidetaka Kasai says.
For
such applications it is important to be able to tailor the pore structure
of the
material and until now this has been achieved by using organic template molecules or swelling agents that need to be removed at high temperatures before the
material can be used.
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.
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.
Such materials are developed for
applications including delivery
of medicines and vaccines, regeneration
of bone tissue, chromatography, catalysis as well as for moisture adsorption and gas separation.
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.
A new way to assemble individual molecules could revolutionize the creation
of novel
materials with numerous potential
applications, including emerging technologies
such as flexible TVs.
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.
Such materials are
of great interest for
applications in renewable energy production and high - performance computers.
«This «responsive porous host» approach is expected to be applicable to different stimuli,
such as photo - irradiation, heat
application and pH change, and open the path for devising a generic strategy for the development
of stimuli - responsive
materials in a controllable and predictable fashion,» said Dr. Hirotoshi Sakamoto, a group leader
of the JST - ERATO project.
Because
of the knowledge gap to date, the use
of recycled aggregates in the U.S. has been limited mostly to non-structural
applications such as sidewalks and roadways, even though the quality
of the
material is generally significantly higher than is required in these
applications.
Recent investigations by physicists at the University
of Maryland indicate that grapheneâ $» one - atom - thick sheets
of carbonâ $» could one day supplant silicon as the
material of choice for important
applications such as high - speed computer chips and biochemical sensors.
Understanding these effects quantitatively is important in order to develop this promising family
of materials for potential
applications including new types
of low - energy computer memory and processing devices, electrically based refrigeration, and electro - catalytic energy - conversion devices
such as fuel cells.
Sometimes things that are technically defects,
such as imperfections in a
material's crystal lattice, can actually produce changes in properties that open up new kinds
of useful
applications.