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    • 2018-11-21 12:05:40
    • Article ID: 704320

    Department of Energy Announces 32 R&D 100 Award Winners

    U.S. Department of Energy (DOE) researchers have won 32 of the R&D 100 awards given out this year by R&D Magazine. The annual awards are given in recognition of exceptional new products or processes that were developed and introduced into the marketplace during the previous year. The R&D 100 Awards were presented on Friday, November 16th in Orlando, Florida.

    “The Department of Energy is one of the largest supporters of technology transfer in the federal government, and these awards demonstrate the incredible value that our national laboratories continue to provide to our nation,” said U.S. Secretary of Energy Rick Perry. “We congratulate this year’s winners, who are helping to lead the way to a more secure and prosperous energy future.”

    DOE’s national laboratories have received more than 800 R&D 100 awards since the annual competition began in 1962. The awards are selected by an independent panel of judges based on the technical significance, uniqueness, and usefulness of projects and technologies from across industry, government, and academia.

    Many of these projects were developed in collaboration with private companies or academic institutions. The list below shows the winning national labs and their corresponding technologies.

    Ames Laboratory

    Acid-free Dissolution Recycling of Rare Earth Elements and Cobalt

    Researchers at the Critical Materials Institute (CMI) and Ames Laboratory invented a magnet recycling process in which magnets are dissolved in water-based solutions, recovering more than 99 percent purity rare earth elements. Cobalt is also recovered from cobalt-containing magnet wastes. The rare earth materials recovered have been reused in making new magnets, and the recovered cobalt shows promise for use in making battery cathodes.

    Argonne National Laboratory

    Darshan 3.1.5

    Darshan 1.5 is the 2018 release of a software product used to understand and improve the performance of the world’s largest data-intensive computing applications across numerous scientific fields.

    Grid-M: Grassroots Infrastructure Dependency Model

    GRID-M is offered at no charge to the Federal Emergency Management Agency (FEMA), which sponsored its development, and all Federal sponsors. It enables near-real-time analysis of the physical infrastructure dependencies of supply and demand nodes (e.g., grocery store, utility substation) within a given jurisdiction following a disruptive event, such as an operational contingency (e.g., grid blackout) or natural hazards — the two most common types — or disruptions arising from terrorism or political instability. By scaling the complex supply chain processes to a manageable paradigm, GRID-M reduces the otherwise daunting computational load associated with providing such information in real time. Emergency planners/managers and public safety officers can customize the tool to consider the critical infrastructure, represented as supply and demand nodes, of the supply chains of greatest significance within their jurisdictions.

    HyMag Magnets

    HyMag magnets significantly increases the usable magnetic flux density of a permanent magnet by 10%-30%, leading to a dramatic improvement in energy efficiency of electric motors and wind turbine generators. HyMag are less expensive and more environmentally friendly, with 60-90% lower heavy-rare-earth materials consumption.

    Swift/T Dataflow Programming for Scientific Supercomputing Workflows

    Swift/T is a highly scalable, hierarchical parallel programming language and runtime that automatically parallelizes the execution of highly concurrent ensembles of scientific simulations on supercomputers.

    Fermi National Accelerator Laboratory

    Silicon Strip Cosmic Muon Detectors for Homeland Security (Co-Developer)

    The slim profile of these detectors enables stealthy deployment to detect shielded nuclear materials.

    Idaho National Laboratory

    Antenna Coupled THz (ACT) Film (Co-Developer)

    Converting waste heat into power represents one of the largest opportunities for bringing greater efficiency and reduced emissions to the energy sector. Using nanorectifying antenna research from INL, RedWave Energy Inc. has developed Antenna Coupled Thz (ACT) Film capable of harvesting low-temperature waste heat at power plants. Each sheet of ACT Film is made of tiny, square, gold-wire rectennas embedded in polyethylene, plastic sheeting that can be used nearly anywhere. The ACT Film absorbs heat between 70 and 250 degrees Celsius and converts it to electricity. Conceivably, composite stacks of ACT Film could be engineered to be compatible with existing power plant designs and used to replace cooling towers. By recovering 20 percent of low-temperature waste heat at a typical power plant, the electricity generated would equal the amount produced by burning 112,000 tons of coal in a year.
     

    Autonomic Intelligent Cyber Sensor (AICS)

    AICS is an artificial intelligence breakthrough that can protect the nation’s critical infrastructure from devastating cyberattack. AICS works autonomously to give industries the power to quickly identify and divert hackers, using machine learning to identify and map industrial control systems. It can identify anomalous network traffic, alert operators and deploy virtual decoys to slow or halt hacking attempts. Following installation on an industrial control system and an initial learning phase, AICS automatically updates what it knows about a control system, adapting and remapping as it goes. AICS sets up and continually updates decoy virtual hosts – honeypots – to distract attackers from targets, giving asset owners the ability and time to gather information that can help identify both a hacking threat and a potentially compromised system.

    Lawrence Berkley National Laboratory

    eProject Builder

    eProject Builder (ePB) is a secure, web-based data management system that enables agencies and ESCOs to preserve, track and report information for their portfolio of energy projects. 

    Los Alamos National Laboratory

    Charliecloud

    Lightweight container software enables software “containers” on high-performance computers.

    Grand Unified File Index (GUFI)

    Provides the fastest software for searching metadata at the scale used by supercomputer and enterprise centers.

    Lighthouse Directional Radiation Detectors

    Precisely determines the location, amount and movement of a radioactive source in the presence of multiple sources.

    Long-Range Wireless Sensor Network

    This turnkey, low-power sensor network enables data collection and transmission in rugged, remote outdoor environments.

    Rad-Hard Single-Board Computer for Space

    Lightweight radiation-hardened computer for satellites and other space applications.

    Silicon Strip Cosmic Muon Detectors for Homeland Security (Co-Developer)

    The slim profile of these detectors enables stealthy deployment to detect shielded nuclear materials.

    Universal Bacterial Sensor

    The sensor mimics biological recognition of bacterial pathogens to enable the detection of bacterial infections even before the onset of symptoms.

    Video-Based Dynamic Measurement & Analysis 

    (ViDeoMAgic) uses video of a vibrating structure and extracts high-spatial-resolution structural vibration and dynamics information to measure the dynamic response and analyze the health of civil, mechanical and aerospace structures.

    National Renewable Energy Laboratory

    Acrylonitrile through nitrilation

    Acrylonitrile through nitrilation, which provides a cleaner process to produce acrylonitrile, a building block for carbon fiber. Biomass replaces petrochemicals as the starting point, making the process renewable. More than 7 billion kilograms of acrylonitrile are produced globally each year for use in such products as clothes and carpets.

    Foresee

    Foresee is an energy management system that relies on user preferences to control and coordinate a home's connected appliances and electronics. The software first asks users to rank what's most important to them about living in their home. Then it takes those preferences into account and automatically adjusts the devices accordingly to reduce energy usage and maximize efficiency.

    Oak Ridge National Laboratory

    Ambient Reactive Extrusion Additive Manufacturing (Co-Developer)

    The Ambient Reactive Extrusion technology is a new approach to additive manufacturing that delivers faster, stronger and more versatile printed parts than traditional thermoplastic printing techniques. The ARE AM approach uses agile, lightweight print heads to deposit polymer materials up to 100 times faster than traditional print systems, suitable for on-site rapid prototyping. Carefully designed reactive print materials create inter-layer covalent bonds, creating significantly stronger vertical strength and eliminating internal stresses and warping.

    High Voltage Electrolytes for Ultracapacitors

    Ultracapacitors are energy storage devices capable of storing and quickly discharging large bursts of power but are limited by a narrow voltage window and low energy density. ORNL researchers have developed a sodium-based electrolyte for ultracapacitors that extends the voltage window without side reactions and can double the specific energy while maintaining power density.

    Multinode Evolutionary Neural Networks for Deep Learning (MENNDL)

    The MENNDL deep-learning technology was designed to mimic human thought processes. When analyzing a dataset, the software starts with a poorly performing network, then alters it through a series of feedback loops to optimize its performance within hours.  MENNDL’s evolving networks are applicable in many fields from computer vision to speech recognition and can be trained to analyze specific datasets. The system presents a novel application of deep learning algorithms to electron microscopy, as it is able to extract structural data from raw atomic microscopy information.

    Mobile Universal Grid Analyzer (m-UGA) (Co-Developer)

    The m-UGA is a time-synchronized, multi-functional, wide-area monitoring and analyzing device designed to enhance the situational awareness capabilities and assess power grid health in real time on mobile devices such as smartphones and tablets. The technology can be installed virtually anywhere with regular 120-V power outlets and is able to capture dynamic grid behaviors and monitor customer-end power quality.

    The Atomic Forge

    The Atomic Forge is a new fabrication approach that repurposes a scanning transmission electron microscope to assemble and manipulate matter on the atomic level. The technology uses STEM electron-beam modification, custom beam control and real-time feedback to create 3D nanometer-scale crystalline structures and controllable atomic assemblies in 2D and 3D, one atomic plane at a time. The Atomic Forge is the first to use the STEM approach and the first to allow sample monitoring during manipulation. Fabrication time is significantly faster than STM assembly, from hours to minutes, and can be operated at room temperature with a high vacuum, rather than cryogenic temperatures and an ultrahigh vacuum. The controller-software module is compatible with modern STEMS and provides a pathways towards large-scale fabrication of materials with pre-defined properties, Beyond-Moore’s-Law technologies, quantum computing devices and the realization of complex molecular machines and nanorobotics.

    TNT Cloning System

    ORNL researchers have engineered an innovative cloning system for flexible DNA assembly from universal libraries to generate multi-gene constructs (DNA synthesis).  This cloning system adopts a pre-defined three nucleotides (TNT) signature and a buffer system for a quick one-pot reaction.  The all-inclusive and ultra-flexible TNT-cloning system assembles functional constructs from a universal library that automatically maintains open reading frames (ORFs) and does not require linkers, adaptors, sequence homology, amplification or mutation of DNA fragments in order to work properly.  

    Pacific Northwest National Laboratory

    Dynamic Contingency Analysis Tool (DCAT)

    Ever-increasing cyber attacks and natural disasters can wallop the nation’s electric grid, potentially causing cascading power outages that cost utilities and their customers billions of dollars. PNNL’s answer for minimizing the impact of extreme events on power grid is DCAT. By simulating thousands of extreme events, DCAT automatically meshes the evaluation of steady-state operations with changing occurrences in the electric grid to find weak spots. Once a weakness is identified, DCAT determines the impacts that would result from a cascading power outage and provides the power operator with actions to stop the outage before it happens. With DCAT, utilities would gain at least 50 percent in efficiency for analyzing grid occurrences compared to today’s more manual processes.

    Shifting cybersecurity from reaction to preemption – StreamWorks

    One hundred forty six days—that’s how long, on average, it takes to detect a cyber breach from the time it begins. PNNL’s StreamWorks cuts that time significantly—to near real time—by detecting emerging patterns of sophisticated cyberattacks in massive data streams. Combining several analytic approaches never before seen together in a cybersecurity tool, the technology tells a cyber analyst when major suspicious patterns are occurring, along with a description of the potential threat and a rationale for why the threat was selected—so the analyst doesn’t have to guess, but instead can take action swiftly.

    Sandia National Laboratories

    Detergent-Assisted Fabrication

    Detergent-assisted fabrication of functional materials: Application of ordinary detergents can produce uniform size and shape of multifuctional materials at the nanoscale, boosting their performance.  Possible uses of the technique range from environmental cleanup to cancer treatment, while reducing costs at the same time.

    Large-scale Atomic/Molecular Massively Parallel Simulator (LAMMPS)

    LAMMPS is a classical molecular dynamics code with a focus on materials modeling. It can be used to model atoms or, more generically, as a parallel particle simulator at the atomic, meso, or continuum scale.

    Large Field of-View Bench-top 3D X-Ray Phase Contrast Imaging System

    This novel grating technology enabled the creation of a compact, bench-scale X-Ray Phase Contrast Imaging device with the ability to detect cracks, voids, or delamination in low density materials. Sandia’s system enables non-destructive inspection throughout the assembly process—improving overall confidence in part reliability.

    Power API

    An interface that users, applications, system tools and administrators can operate to understand and control power usage. It works through existing programming paradigms that all modern computers operate under.

    SWiCK Zoom

    SWiCK Zoom, or Sandia wide-angle quick zoom — The technology uses variable focal-length lenses or mirrors to toggle between high and low magnification almost instantly, enabling users to achieve true optical zoom with minimal power. Compact, lightweight, and low-power systems are ideal where size, weight speed or battery power come at a premium, including cameras on drones, cell-phones and self-driving cars.

    Thomas Jefferson National Accelerator Laboratory

    OARtrac (Co-Developer)

    OARtrac helps solve a key challenge for radiation oncology: the difficulty of measuring exactly how much radiation cancer patients receive in real-time at the tumor site. The system is designed to allow therapists to not only monitor, but also adjust the radiation delivered, so that patients receive the amount specified in their treatment plan.

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    The Biermann Battery Effect: Spontaneous Generation of Magnetic Fields and Their Severing

    The mechanism responsible for creating intense magnetic fields in laser-driven plasmas also helps tear the fields apart.

    Compelling Evidence for Small Drops of Perfect Fluid

    Nuclear physicists analyzing data from the PHENIX detector at the Relativistic Heavy Ion Collider (RHIC) have published additional evidence that collisions of miniscule projectiles with gold nuclei create tiny specks of the perfect fluid that filled the early universe.

    Topological Matters: Toward a New Kind of Transistor

    An experiment has demonstrated, for the first time, electronic switching in an exotic, ultrathin material that can carry a charge with nearly zero loss at room temperature. Researchers demonstrated this switching when subjecting the material to a low-current electric field.

    Experiments at PPPL show remarkable agreement with satellite sightings

    Feature describes striking similarity of laboratory research findings with observations of the four-satellite Magnetospheric Multiscale Mission that studies magnetic reconnection in space.

    New X-ray imaging approach could boost nanoscale resolution for Advanced Photon Source Upgrade

    A long-standing problem in optics holds that an improved resolution in imaging is offset by a loss in the depth of focus. Now, scientists are joining computation with X-ray imaging as they develop a new and exciting technique to bypass this limitation.

    Two-dimensional materials skip the energy barrier by growing one row at a time

    News Release RICHLAND, Wash. -- A new collaborative study led by a research team at the Department of Energy's Pacific Northwest National Laboratory and University of California, Los Angeles could provide engineers new design rules for creating microelectronics, membranes, and tissues, and open up better production methods for new materials.

    Blasting Molecules with Extreme X-Rays

    To understand how damage from high-energy X-rays affects imaging studies, scientists supported by the Department of Energy shot the most powerful X-ray laser in the world at a series of atoms and molecules. Surprisingly, the atoms within the molecules acted far differently than the isolated ones.

    Scientists Enter Unexplored Territory in Superconductivity Search

    Scientists mapping out the quantum characteristics of superconductors--materials that conduct electricity with no energy loss--have entered a new regime. Using newly connected tools named OASIS at Brookhaven Lab, they've uncovered previously inaccessible details of the "phase diagram" of one of the most commonly studied "high-temperature" superconductors.

    Human Exposures and Health Effects Associated with Unconventional Oil and Gas Development

    The Health Effects Institute (HEI) convened an Energy Research Committee to help ensure the protection of public health during such development. A symposium at the 2018 Society for Risk Analysis (SRA) Annual Meeting will summarize the Committee's review approach and preliminary findings and provide initial options for future research intended to fill knowledge gaps.

    Reflecting Antiferromagnetic Arrangements

    Scientists have demonstrated an x-ray imaging technique that could enable the development of smaller, faster, and more robust electronics that exploit electron spin.


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    Blast to the future

    A grant from DOE's Technology Commercialization Fund will help researchers at Argonne and industry partners seek improvements to U.S. manufacturing by making discovery and design of new materials more efficient.

    Department of Energy to Provide $24 Million for Computer-Based Materials Design

    The U.S. Department of Energy (DOE) announced plans to provide $24 million in new and renewal research awards to advance the development of sophisticated software for computer-based design of novel materials.

    Argonne scientists recognized for decades of pioneering leadership in research

    Argonne scientists Ali Erdemir and Jack Vaughey were named 2018 Fellows of the American Association for the Advancement of Science (AAAS).

    Kurfess, Smith join ORNL to lead advanced manufacturing initiatives

    Two leaders in US manufacturing innovation, Thomas Kurfess and Scott Smith, are joining the Department of Energy's Oak Ridge National Laboratory to support its pioneering research in advanced manufacturing.

    Four Berkeley Lab Scientists Named AAAS Fellows

    Four Berkeley Lab scientists - Allen Goldstein, Sung-Hou Kim, Susannah Tringe, and Katherine Yelick - have been named Fellows of the American Association for the Advancement of Science, the world's largest general scientific society.

    U.S. Department of Energy to Host Nationwide CyberForce Competition(tm) December 1

    Students from dozens of colleges/universities will participate in the U.S. Department of Energy's CyberForce Competition(tm) this weekend

    Seven ORNL researchers named 2019 INCITE award winners

    Seven researchers from the Department of Energy's Oak Ridge National Laboratory have been chosen by the Innovative and Novel Computational Impact on Theory and Experiment, also known as INCITE, program to lead scientific investigations that require the nation's most powerful computers. The ORNL-based projects span a broad range of the scientific spectrum and represent the potential of high-performance computing in ensuring America's scientific competitiveness and energy security.

    DOE Laboratories Win Gordon Bell Prize

    Two U.S. Department of Energy (DOE) National Laboratories were recently awarded the 2018 Association for Computing Machinery's (ACM's) Gordon Bell Prize.

    Department of Energy Announces 32 R&D 100 Award Winners

    DOE researchers have won 32 of the R&D 100 awards given out this year by R&D Magazine. The annual awards are given in recognition of exceptional new products or processes that were developed and introduced into the marketplace during the previous year.

    Jefferson Lab Shares 2018 R&D 100 Award for Cancer Treatment Monitoring System

    The OARtrac(r) system, built by RadiaDyne and including technologies developed by scientists at the U.S. Department of Energy's Thomas Jefferson National Accelerator Facility, has been awarded a 2018 R&D 100 Award by R&D Magazine.


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    The Biermann Battery Effect: Spontaneous Generation of Magnetic Fields and Their Severing

    The mechanism responsible for creating intense magnetic fields in laser-driven plasmas also helps tear the fields apart.

    Subtlety and the Selective Art of Separating Lanthanides

    Unexpected molecular interactions involving water clusters have a subtle, yet profound, effect on extractants picking their targets.

    Review Examines the Science and Needs of Nitrogen-Based Transformations

    Advances in biochemistry and catalysis could lead to faster, greener nitrogen-rich fertilizer.

    Quickly Capture Tiny Particles Reacting

    New method takes a snapshot every millisecond of groups of light-scattering particles, showing what happens during industrially relevant reactions.

    New Technology Consistently Identifies Proteins from a Dozen Cells

    A new platform melding microfluidics and robotics allows more in-depth bioanalysis with fewer cells than ever before.

    Optimal Foraging: How Soil Microbes Adapt to Nutrient Constraints

    How microbial communities adjust to nutrient-poor soils at the genomic and proteomic level gives scientists insights into land use.

    Microbes Eat the Same in Labs and the Desert

    Analyses of natural communities forming soil crusts agree with laboratory studies of isolated microbe-metabolite relationships.

    Diverse Biofeedstocks Have High Ethanol Yields and Offer Biorefineries Flexibility

    Evidence suggests that biorefineries can accept various feedstocks without negatively impacting the amount of ethanol produced per acre.

    Opening Access to Explore the Synthetic Chemistry of Neptunium

    New, easily prepared starting material opens access to learning more about a difficult-to-control element in nuclear waste.

    Tiny Titanium Barrier Halts Big Problem in Fuel-Producing Solar Cells

    New design coats molecular components and dramatically improves stability under tough, oxidizing conditions.


    Spotlight

    Thursday October 11, 2018, 04:00 PM

    Research on Light-Matter Interaction Could Lead to Improved Electronic and Optoelectronic Devices

    Rensselaer Polytechnic Institute (RPI)

    Wednesday October 03, 2018, 07:05 PM

    Innovating Our Energy Future

    Oregon State University, College of Engineering

    Tuesday October 02, 2018, 03:05 PM

    Physics graduate student takes her thesis research to a Department of Energy national lab

    University of Alabama at Birmingham

    Friday September 21, 2018, 01:05 PM

    "Model" students enjoy Argonne campus life

    Argonne National Laboratory

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    Writing Code for a More Skilled and Diverse STEM Workforce

    Brookhaven National Laboratory

    Tuesday September 04, 2018, 11:30 AM

    New graduate student summer school launches at Princeton Plasma Physics Laboratory

    Princeton Plasma Physics Laboratory

    Friday August 31, 2018, 06:05 PM

    The Gridlock State

    California State University (CSU) Chancellor's Office

    Friday August 31, 2018, 02:05 PM

    Meet Jasmine Hatcher and Trishelle Copeland-Johnson

    Brookhaven National Laboratory

    Friday August 24, 2018, 11:05 AM

    Argonne hosts Modeling, Experimentation and Validation Summer School

    Argonne National Laboratory

    Wednesday August 22, 2018, 01:05 PM

    Students affected by Hurricane Maria bring their research to SLAC

    SLAC National Accelerator Laboratory

    Wednesday August 22, 2018, 10:05 AM

    Brookhaven Lab Pays Tribute to 2018 Summer Interns

    Brookhaven National Laboratory

    Monday August 20, 2018, 12:05 PM

    Changing How Buildings Are Made

    Washington University in St. Louis

    Thursday August 16, 2018, 12:05 PM

    CSUMB Selected to Host Architecture at Zero Competition in 2019

    California State University, Monterey Bay

    Friday July 20, 2018, 03:00 PM

    Department of Energy Invests $64 Million in Advanced Nuclear Technology

    Rensselaer Polytechnic Institute (RPI)

    Thursday July 19, 2018, 05:00 PM

    Professor Miao Yu Named the Priti and Mukesh Chatter '82 Career Development Professor

    Rensselaer Polytechnic Institute (RPI)

    Tuesday July 03, 2018, 11:05 AM

    2018 RHIC & AGS Annual Users' Meeting: 'Illuminating the QCD Landscape'

    Brookhaven National Laboratory

    Friday June 29, 2018, 06:05 PM

    Argonne welcomes The Martian author Andy Weir

    Argonne National Laboratory

    Monday June 18, 2018, 09:55 AM

    Creating STEM Knowledge and Innovations to Solve Global Issues Like Water, Food, and Energy

    Illinois Mathematics and Science Academy (IMSA)

    Friday June 15, 2018, 10:00 AM

    Professor Emily Liu Receives $1.8 Million DoE Award for Solar Power Systems Research

    Rensselaer Polytechnic Institute (RPI)

    Thursday June 07, 2018, 03:05 PM

    Celebrating 40 years of empowerment in science

    Argonne National Laboratory

    Monday May 07, 2018, 10:30 AM

    Introducing Graduate Students Across the Globe to Photon Science

    Brookhaven National Laboratory

    Wednesday May 02, 2018, 04:05 PM

    Students from Massachusetts and Washington Win DOE's 28th National Science Bowl(r)

    Department of Energy, Office of Science

    Thursday April 12, 2018, 07:05 PM

    The Race for Young Scientific Minds

    Argonne National Laboratory

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    Q&A: Al Ashley Reflects on His Efforts to Diversify SLAC and Beyond

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    Insights on Innovation in Energy, Humanitarian Aid Highlight UVA Darden's Net Impact Week

    University of Virginia Darden School of Business

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    Ivy League Graduate, Writer and Activist with Dyslexia Visits CSUCI to Reframe the Concept of Learning Disabilities

    California State University, Channel Islands

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    Photographer Adam Nadel Selected as Fermilab's New Artist-in-Residence for 2018

    Fermi National Accelerator Laboratory (Fermilab)

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    The Future of Today's Electric Power Systems

    Rensselaer Polytechnic Institute (RPI)

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    Supporting the Development of Offshore Wind Power Plants

    Rensselaer Polytechnic Institute (RPI)

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    Stairway to Science

    Argonne National Laboratory

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    Argonne National Laboratory

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    Bringing Diversity Into Computational Science Through Student Outreach

    Brookhaven National Laboratory

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    From Science to Finance: SLAC Summer Interns Forge New Paths in STEM

    SLAC National Accelerator Laboratory

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    Students Discuss 'Cosmic Opportunities' at 45th Annual SLAC Summer Institute

    SLAC National Accelerator Laboratory

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    Binghamton University Opens $70 Million Smart Energy Building

    Binghamton University, State University of New York

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    Widening Horizons for High Schoolers with Code

    Argonne National Laboratory

    Saturday May 20, 2017, 12:05 PM

    Rensselaer Polytechnic Institute Graduates Urged to Embrace Change at 211th Commencement

    Rensselaer Polytechnic Institute (RPI)

    Monday May 15, 2017, 01:05 PM

    ORNL, University of Tennessee Launch New Doctoral Program in Data Science

    Oak Ridge National Laboratory

    Friday April 07, 2017, 11:05 AM

    Champions in Science: Profile of Jonathan Kirzner

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    Friday March 24, 2017, 10:40 AM

    Great Neck South High School Wins Regional Science Bowl at Brookhaven Lab

    Brookhaven National Laboratory

    Wednesday February 15, 2017, 04:05 PM

    Middle Schoolers Test Their Knowledge at Science Bowl Competition

    Argonne National Laboratory





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