Sentences with phrase «design and material science»

Employee supervision and Project management experience with highly technical knowledge in power supply design and material science.

Haider: By bridging materials science, mechanical design, and advanced sterilization techniques to pre-attach spinal implants onto disposable delivery instruments, we've developed a technology that outperforms traditional systems in mechanical consistency and the risk of pathogen transmission, and that fundamentally changes the internal logistics of both hospitals and outpatient surgery centers.

These tours are designed to give university level packaging and materials science students an unparalleled, first - hand experience of the glass packaging industry.

DuPont plastics, packaging, polymer modifiers and the bio-based ingredients business, resulting from the recent acquisition of Danisco, highlighted materials science and design techniques that can be used to deliver performance and sustainability.

I'm frequently excited by dinosaurs and sushi, and I hope to one day apply my materials science background to a career in human - centered materials design and research.

Over the course of the three - year curriculum project, the research team will design materials for students along with a professional development program and materials for teachers and a set of assessments for evaluating students» understanding of the energy concepts and science practices that are targeted in the new unit.

The design and formation of an atomic - scale bridge between different materials will lead to new and improved physical properties, opening the path to new information technology and energy science applications amongst a myriad of science and engineering possibilities — for example, atoms could move faster at the interface between the materials, enabling better batteries and fuel cells.

The initiative is designed to stimulate collaborative research at the interface of computing and the sciences, including biology, chemistry, physics, neuroscience, materials science, immunology, and ecology.

Zhang worked together with the research group of John A. Rogers, the paper's third co-corresponding author and a Swanlund Chair and professor of materials science and engineering at the University of Illinois, in developing the structural designs of 2 - D structures to form various classes of 3 - D configurations.

I am excited about what materials science can do for the development of future technologies, and as new experimental and theoretical methods are designed, we will have better tools to describe, predict, and eventually use the properties of materials.

Some of the new nuclear science research programs, including the one at MIT, are studying new reactor designs and fuel cycles that scientists (and policy - makers) hope will make nuclear plants safer and cheaper to operate, and produce waste materials with smaller volume, shorter half - lives, and less appeal to terrorists and other would - be nuclear powers.

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 balancing.

«We are on the verge of a materials revolution,» chemical engineer Sharon Glotzer of the University of Michigan declared recently in Science, «in which entirely new classes of «supermolecules» and particles will be designed and fabricated with desired features, including programmable instructions for assembly.»

The international team's design and testing of this novel advanced material from scratch required multidisciplinary expertise and sophisticated tools from such places as Argonne National Laboratory and ORNL, including Argonne's Advanced Photon Source and ORNL's Center for Nanophase Materials Science, says Lee.

Integrated computational materials engineering is a field of science that develops computational models so scientists can understand materials at these various scales, allowing them to tailor and optimize custom - designed microstructures with the necessary properties for the functions they are destined for.

► In an editorial in this week's issue, Science Editor - in - Chief Marcia McNutt gave an update on Science in the Classroom, «an online resource of annotated research papers published in Science, with associated teaching materials designed to help pre-college and college students understand how science moves forward as a structured way of revealing the laws of nature.Science Editor - in - Chief Marcia McNutt gave an update on Science in the Classroom, «an online resource of annotated research papers published in Science, with associated teaching materials designed to help pre-college and college students understand how science moves forward as a structured way of revealing the laws of nature.Science in the Classroom, «an online resource of annotated research papers published in Science, with associated teaching materials designed to help pre-college and college students understand how science moves forward as a structured way of revealing the laws of nature.Science, with associated teaching materials designed to help pre-college and college students understand how science moves forward as a structured way of revealing the laws of nature.science moves forward as a structured way of revealing the laws of nature.»

In the current study, the authors describe how they designed THSB's student and teacher materials to increase teachers» knowledge of science ideas and practices and of strategies for teaching them.

The engineers have designed and tested the materials for the bio-based filter and report on their work in the journal Composites Science and Technology.

The group has leveraged expertise in polymer chemistry, polymer physics, chemical engineering and materials science to manipulate the phase behavior, thermal transitions and mechanical and transport properties of block polymers to optimize materials design.

Materials and Design The Art and Science of Material Selection in Product Design.

«Whether it is medicine, for machines through nanotechnology, in agriculture or materials, design problems require simultaneous innovation in computing and science that can only be accomplished by those with the combined skills.»

In an article recently published in Nature Chemistry, a UT Dallas team — including a materials scientist, two chemists and a game design expert — describes how a group of 39 college students from diverse majors played an enhanced version of the popular video game «Minecraft» and learned chemistry in the process, despite being given no in - class science instruction.

The first author Byeonghwa Lim at DGIST's Ph.D program of Emerging Materials Science elaborated on the biosensor platform, «We placed a spider web - shaped micro-magnetic pattern which was designed to move the superparamagnetic particles toward the center of the biosensor and a high sensitivity biosensor on the platform.

«By putting these self - assembling chains into soft robots, we are able to have them perform more complex functions while still retaining relatively simple designs,» says Joe Tracy, an associate professor of materials science and engineering at North Carolina State University and corresponding author of a paper on the work.

«Our concept is to specifically design a way to turn low - frequency motion, such as human movement or ocean waves, into electricity,» said Qing Wang, professor of materials science and engineering, Penn State.

Professor Alvaro Mata, from Queen Mary's School of Engineering and Materials Science, said: «The technique opens the possibility to design and create biological scenarios like complex and specific cell environments, which can be used in different fields such as tissue engineering by creating constructs that resemble tissues or in vitro models that can be used to test drugs in a more efficient manner.»

Presentation at the Workshop on the Design, Selection, and Implementation of Instructional Materials for the Next Generation Science Standards (NGSS), National Research Council, Washington, DC.

In order to qualify for participation in the Star Tiger programme, applicants should have experience in one or more of the following research areas: lithography, microelectromechanical systems fabrication, radio frequency (RF) system design, optical and RF photonic bandgap design, test and measurement, charge - coupled device imaging, packaging / micro / self - assembly, mechanical design, materials sciences, solid state physics, or general physics.

Sub-topics include: actuators, advanced materials, artificial Intelligence, autonomous vehicles, bio-inspired design, exoskeletons, fabrication, field robotics, human - robot interaction, humanoids, industrial robotics, kinematics, machine learning, material science, medical technology, motion planning and control, micro - and nano - robotics, multi-robot control, sensors, service robotics, social and ethical issues, soft robotics, and space, planetary and undersea exploration.

Their new study outlines the design of a synthetic system for energy gathering, conversion and transport that may point the way to innovations in solar energy, materials science, nanotechnology and photonics.

In a paper published in the journal Energy & Environmental Science, a team of materials scientists and mechanical engineers refined this design and made it hold almost four times the electricity of a lithium - ion battery by weight.

Team leader Jason Fowlkes, a research staff member at ORNL's Center for Nanophase Materials Sciences, a DOE Office of Science User Facility, said the new system integrates design and construction into one streamlined process that creates complex 3 - D nanostructures.

A team led by chemist David Leigh of the University of Manchester Institute of Science and Technology have been working with physicist colleagues to design stable and cheap materials with a property known as «photoluminescence».

We offer on - site capabilities in all areas of reactor design, from fuels and reactor internals through thermodynamics and materials science.

Dublin Institute of Technology, Electrical and Controls Engineering and Gaskatel, Kassel, Germany - Fuel Cells University of Applied Science - Germany, Fuel Cells and Nanocomposit Materials Trinity College - Dublin Physics - Nanotubes and Polymer Modified Carbon Nanotubes materials and Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Controls Engineering and Gaskatel, Kassel, Germany - Fuel Cells University of Applied Science - Germany, Fuel Cells and Nanocomposit Materials Trinity College - Dublin Physics - Nanotubes and Polymer Modified Carbon Nanotubes materials and Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Gaskatel, Kassel, Germany - Fuel Cells University of Applied Science - Germany, Fuel Cells and Nanocomposit Materials Trinity College - Dublin Physics - Nanotubes and Polymer Modified Carbon Nanotubes materials and Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Nanocomposit Materials Trinity College - Dublin Physics - Nanotubes and Polymer Modified Carbon Nanotubes materials and Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News,Materials Trinity College - Dublin Physics - Nanotubes and Polymer Modified Carbon Nanotubes materials and Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Polymer Modified Carbon Nanotubes materials and Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News,materials and Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, VirgiAnd Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virgiand Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virginia

Such new insight may open countless of hitherto unexplored venues for the future design and optimization of heterogeneous catalytic systems, for the development of novel synthetic tools applied to carbon - based nanotechnology, as well as for biochemical and materials science applications.

Research activities at MANA involving the design and systemization of superconducting materials based on the concepts of nanoarchitectonics are accelerating progress in superconductivity science.

Following the EFRC tradition, during each meeting there is an optional contest designed to educate, inspire and entertain an intelligent, but not expert, audience with the extraordinary science, innovation, and people in the Energy Frontier Research Centers (EFRC), Energy Innovation Hubs (Hub), and Computational Materials Sciences Awards (CMS).

This nanotechnology signature initiative coordinates the nanoscale science, engineering, and technology communities around the fundamental, interconnected elements of collaborative modeling, a cyber-toolbox, and data infrastructure to capitalize on American strengths in innovation, shorten the time from research to new product development, and maintain U.S. leadership in sustainable design of engineered nanoscale materials.

With Science Buddies» broad mix of free scientist - authored resources for STEM education, including hands - on project ideas and activities, lesson plans, career profiles, science news articles, concept videos, and complete project guides for science and engineering projects, if you are teaching it to your science class, Science Buddies has materials designed to help you bring the material to life in - class or to supplement and extend classroom leScience Buddies» broad mix of free scientist - authored resources for STEM education, including hands - on project ideas and activities, lesson plans, career profiles, science news articles, concept videos, and complete project guides for science and engineering projects, if you are teaching it to your science class, Science Buddies has materials designed to help you bring the material to life in - class or to supplement and extend classroom lescience news articles, concept videos, and complete project guides for science and engineering projects, if you are teaching it to your science class, Science Buddies has materials designed to help you bring the material to life in - class or to supplement and extend classroom lescience and engineering projects, if you are teaching it to your science class, Science Buddies has materials designed to help you bring the material to life in - class or to supplement and extend classroom lescience class, Science Buddies has materials designed to help you bring the material to life in - class or to supplement and extend classroom leScience Buddies has materials designed to help you bring the material to life in - class or to supplement and extend classroom learning.

Through the exploration of materials, Los Alamos pursues the discovery science and engineering required to establish design principles, synthesis pathways, and manufacturing processes for advanced and new materials to intentionally control functionality relevant to the Lab's national security mission.

Prof. Luis Liz - Marzan, EurASc Blaise Pascal Medalist in Materials Science in 2017, has received an ERC Advanced Grant for his project entitled «Four - Dimensional Monitoring of Tumour Growth by Surface Enhanced Raman Scattering» and this project will deal with the design of materials and methods that allow a study in real time of tumor growth under controlled environments, built from purposely designed sMaterials Science in 2017, has received an ERC Advanced Grant for his project entitled «Four - Dimensional Monitoring of Tumour Growth by Surface Enhanced Raman Scattering» and this project will deal with the design of materials and methods that allow a study in real time of tumor growth under controlled environments, built from purposely designed smaterials and methods that allow a study in real time of tumor growth under controlled environments, built from purposely designed scaffolds.

(A mechanical engineer is someone who uses physics and materials science to design, develop, build and test mechanical devices.)

REVIEW BioEd Online is a site designed to enhance the skills and knowledge of science educators and it provides the materials and information to do just that.

The Center on the Developing Child will provide access to science and strategy underlying their materials on the science of early childhood development (ECD) and its implications, consult on key scientific content messages designed to empower and influence local decision makers and program managers, and will co-facilitate orientation to the key messages with FrameWorks, UNICEF staff and local government officials.

One programme in the pilot — Tinker Tailor Robot Pi — explored how engineering could be incorporated into the primary school curriculum through science, design and technology and computing — including through «tinkering» with readily available materials to make and improve models.

In this exciting practical session pupils will design, build and test their own balloon buggies using cheap and recycled materials, whilst linking to KS2 and KS3 Science, DT and Mathematics curricula.

In addition to designing a lander for their egg and earning tokens to purchase the materials to build it in teams, they must also design a lander that will release the egg safely on impact!!!!! In addition to Science and Maths, there is an element of enterprise here too as the students earn tokens through maths challenges, to purchase the materials that they need to build their design.

It covers design, science, engineering, and simple machines Kids are asked to create and analyze use of materials and purpose of the game.

The materials include ideas for Sports Day, Summer Fairs, assemblies, science experiments and writing tasks, all designed to educate about sun safety.