Sentences with phrase «using team structures»

We use a team structure to sell our listings.

Depending on the structure of your business, you may be using marketing automation to funnel leads to your sales team.

The idea to have a movable office structure completely controlled by those using it is of a piece with the team's larger lean philosophy, he believes.

This year, though, a team from Lawrence Livermore National Laboratory has developed an approach that uses a regular laser - sintering printer to control the microscopic grain structure of the metal.

On top of that, using the infomercial pitch structure will help your sales team ramp up faster, internalize your value proposition, and even articulate it without slides or demos.

Paul Vigna, a reporter at the Wall Street Journal who covers cryptocurrency, wrote that ICOs are risky because many teams are untested and the companies are «opaque structures» that provide «little transparency» into how the money being raised will be used.

Understand your initial capital structure (and dilution) • Founders (80 - 90 %), Leadership team (10 - 15 %), Advisors (1 - 3 %) • Skin in the game • Put in writing and use vested agreements • Source cap table excel sheets online

Important factors that may affect the Company's business and operations and that may cause actual results to differ materially from those in the forward - looking statements include, but are not limited to, operating in a highly competitive industry; changes in the retail landscape or the loss of key retail customers; the Company's ability to maintain, extend and expand its reputation and brand image; the impacts of the Company's international operations; the Company's ability to leverage its brand value; the Company's ability to predict, identify and interpret changes in consumer preferences and demand; the Company's ability to drive revenue growth in its key product categories, increase its market share, or add products; an impairment of the carrying value of goodwill or other indefinite - lived intangible assets; volatility in commodity, energy and other input costs; changes in the Company's management team or other key personnel; the Company's ability to realize the anticipated benefits from its cost savings initiatives; changes in relationships with significant customers and suppliers; the execution of the Company's international expansion strategy; tax law changes or interpretations; legal claims or other regulatory enforcement actions; product recalls or product liability claims; unanticipated business disruptions; the Company's ability to complete or realize the benefits from potential and completed acquisitions, alliances, divestitures or joint ventures; economic and political conditions in the United States and in various other nations in which we operate; the volatility of capital markets; increased pension, labor and people - related expenses; volatility in the market value of all or a portion of the derivatives we use; exchange rate fluctuations; risks associated with information technology and systems, including service interruptions, misappropriation of data or breaches of security; the Company's ability to protect intellectual property rights; impacts of natural events in the locations in which we or the Company's customers, suppliers or regulators operate; the Company's indebtedness and ability to pay such indebtedness; the Company's ownership structure; the impact of future sales of its common stock in the public markets; the Company's ability to continue to pay a regular dividend; changes in laws and regulations; restatements of the Company's consolidated financial statements; and other factors.

They are the ones a congregational study team will use in discerning the structure of the congregational story and its mythic parallels.

More from members of the Obama campaign staff on the structure of the new media team, the importance of good content (particularly video) and the use of grassroots data in allocating resources in real - time.

She said she had already planned to meet with the students, her department was encouraging schools operating out of the same structure to form unified sports teams to make best use of their spaces.

Using state - of - the - art, high - throughput sequencing technologies, the team also analyzed the gut microbial population structures of mothers and their offspring.

Pan, Schweitzer and their team used both scanning and transmission electron microscopy to get microscopic details of the feather's surface and its internal structure.

Combing the genetic data from a transmission study in ferrets, a team led by Thomas Friedrich, a professor of pathobiological sciences at the University of Wisconsin - Madison School of Veterinary Medicine, found that during transmission, when one animal is infected by another through sneezing or coughing, the process of natural selection acts strongly on hemagglutinin, the structure the virus uses to attach to and infect host cells.

Now a team from Harvard Medical School, using electron cryomicroscopy (imaging frozen specimens to reduce damage from electron radiation), has for the first time revealed the structure of a VSV protein at the atomic level.

Five years ago, using a lower - resolution form of electron microscopy in which the protein is visualized in the presence of negative stain, Whelan's team was able to detect at low resolution a structure that looked like a doughnut with three globular domains.

In simulation, the team created «the ideal environment to test and optimize the web structures» under different loading conditions, and then use synthetic materials to print identical webs, Qin says.

The researchers, including Stanford's Schnitzer, used the same microscopic technique as Dulac's team but implanted the lens in the ventromedial hypothalamus, an evolutionarily ancient structure involved in social behavior.

The research team, led by bioengineering professor Rohit Bhargava, is using infrared chemical imaging to examine and optimize the structure of MOFs.

The 100 Island Challenge team, composed of postdoctoral researchers, staff, and graduate students from the labs of Sandin and Scripps ecologist Jennifer Smith, is partnering with scientists and communities around the world to visit 100 different islands and use these novel 3 - D imaging techniques to create photo mosaics capturing every detail of the coral reef structure and ecology.

So far, the Georgia Tech team has produced structures of silver and carbon, but the process could be used to fabricate a wide range of metallic and non-metallic nanomaterials.

Observations obtained a month later by members of the Planetary Sciences Group using the PlanetCam camera developed by this team and fitted to the 2.2 - m telescope at the Calar Alto Observatory in Almería (Spain) enabled the speed of this atmospheric structure to be confirmed.

The research team used molecular modeling and knowledge of hemagglutanin's structure to identify mutations that would change the protein's amino acid sequence and cause a switch to human specificity.

The international team recently revealed the structure of the first and third states at a resolution of 5 and 5.5 Angstroms, respectively, using a new technique called serial femtosecond crystallography.

Using a new methodology that measures how closely words» meanings are related within and between languages, an international team of researchers has revealed that for many universal concepts, the world's languages feature a common structure of semantic relatedness.

The research team, led by Bosch, use the freshwater polyp Hydra as the model organism to elucidate the fundamental principles of nervous system structure and function.

The team printed structures in a variety of materials, including collagen and fibrin — both structural proteins found in the human body — and a seaweed - derived substance called alginate that is widely used as a thickening or structural agent in food, industry, and medicine.

His team is currently testing the sensitivity of the new design to changes in magnetic fields, and hoping that this structure could be used for biosensing applications such as MEG.

Examining a small, high - quality crystal grown at Tulane University, the team was able to determine the magnetic structure of Sr1 - yMn1 - zSb2, using neutrons at the Four - Circle Diffractometer instrument at the High Flux Isotope Reactor.

Through their work on cerium - based metallic glass, the team was able to discover a consistent rule that establishes an exact numeric relationship between the decrease in volume of metallic glass under pressure in relation to changes in its atomic structure determined using advanced X-ray tools.

Using their atomic assembly method, the research team demonstrated complete control by creating two real - life structures inspired by fundamental model systems with exotic electronic properties.

Inspired by the swiflets that build nests using their own saliva, Mirko Kovac of Imperial College London and his team wanted an aerial robot that could make structures.

Óscar Llorca and his team have used this technique to learn about the structure and functioning of a complex system called R2TP, which is involved in various key processes for cell survival such as the activation of the kinases mTOR, ATR and ATM, proteins that are the target of various cancer drugs currently being developed.

In order to help boron - doping into graphene structure, the research team used nitrogen (70 pm), which is a bit smaller than carbon and boron.

The team utilized ab initio calculations of atoms» electronic structures and put these calculations in motion using molecular dynamics simulations.

The team, led by University of Cologne's Prof. Dr. Sandro Jahn and Dr. Clemens Prescher, has been using JSC's JUQUEEN supercomputer to simulate the structure of melts by studying silicate glasses as a model system for melts under ultra-high pressures.

Using an innovative crystallization technique for studying three - dimensional structures of gene transcription machinery, an international team of researchers, led by scientists at Penn State, has revealed new insights into the long debated action of the «magic spot» — a molecule that controls gene expression in Eschericahia coli and many other bacteria when the bacteria are stressed.

Borenstein and his team use a systems biology approach and apply sophisticated computer modeling to understand the structure, function, and dynamics of the microbiome.

Then, following a systematic investigation into the performance of that data structure for NVM systems, the team adapted it for use in NVM.

By preserving the electrons and enhancing the light through the use of nanotube jungles, the team is able to significantly increase the SERS» detection sensitivities in CNTs structures.

A team of scientists led by Aarhus University mapped the migration patterns, centre of diversity and population structure of this aggressive fungus using microsatellite genotyping of worldwide representative samples.

Using nuclear magnetic resonance spectroscopy, two teams working with the Göttingen - based scientists Markus Zweckstetter and Stefan Becker have now shown the complex three - dimensional structure of the protein «at work» in atomic detail.

Starting in the mid-2000s, Yoshiki Sasai's team at the RIKEN Center for Developmental Biology in Kobe, Japan, demonstrated how to grow brainlike structures using embryonic stem cells, first from mice and then humans.

By examining the structure presented in this study, her team will work to determine how the antibodies could be used to kill the virus.

In a study, reported in the January 21, 2016 issue of Nano Letters, the team demonstrated a new redox - responsive assembly method to synthesize hierarchically structured carbon - sheathed germanium nanowires (c - GeNWs) on a large scale by the use of self - catalytic growth process assisted by thermally decomposed natural gas.

Using algebraic topology in a way that it has never been used before in neuroscience, a team from the Blue Brain Project has uncovered a universe of multi-dimensional geometrical structures and spaces within the networks of the brain.

The team was able to image the crystalline structure of the magnetic charges using magnetic force microscopy.

The Cambridge team, working with researchers from Aalto University in Finland, mimicked the structure of chitin using cellulose, which is non-toxic, abundant, strong and bio-compatible.

An international team led by researchers from the U.S. Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) used advanced techniques in electron microscopy to show how the ratio of materials that make up a lithium - ion battery electrode affects its structure at the atomic level, and how the surface is very different from the rest of the material.

An NCAR research team, for example, will use the NSF / NCAR Gulfstream - V research aircraft to take infrared measurements for about four minutes, helping scientists better understand the solar corona's magnetism and thermal structure.