The DOE Science News Source is a Newswise initiative to promote research news from the Office of Science of the DOE to the public and news media.

April Snapshots

X-rays accelerate battery R&D; infrared microscopy goes off grid; substrates support 2D tech
Lawrence Berkeley National Laboratory

X-ray Experiments, Machine Learning Could Trim Years Off Battery R&D
By Glenn Roberts Jr.

An X-ray instrument at Berkeley Lab contributed to a battery study that used an innovative approach to machine learning to speed up the learning curve about a process that shortens the life of fast-charging lithium batteries. 

Researchers used Berkeley Lab’s Advanced Light Source, a synchrotron that produces light ranging from the infrared to X-rays for dozens of simultaneous experiments, to perform a chemical imaging technique known as scanning transmission X-ray microscopy, or STXM, at a state-of-the-art ALS beamline dubbed COSMIC

Researchers also employed “in situ” X-ray diffraction at another synchrotron – SLAC’s Stanford Synchrotron Radiation Lightsource – which attempted to recreate the conditions present in a battery, and additionally provided a many-particle battery model. All three forms of data were combined in a format to help the machine-learning algorithms learn the physics at work in the battery.

While typical machine-learning algorithms seek out images that either do or don’t match a training set of images, in this study the researchers applied a deeper set of data from experiments and other sources to enable more refined results. It represents the first time this brand of “scientific machine learning” was applied to battery cycling, researchers noted. The study was published recently in Nature Materials.

The study benefited from an ability at the COSMIC beamline to single out the chemical states of about 100 individual particles, which was enabled by COSMIC’s high-speed, high-resolution imaging capabilities. Young-Sang Yu, a research scientist at the ALS who participated in the study, noted that each selected particle was imaged at about 50 different energy steps during the cycling process, for a total of 5,000 images. 

The data from ALS experiments and other experiments were combined with data from fast-charging mathematical models, and with information about the chemistry and physics of fast charging, and then incorporated into the machine-learning algorithms.

“Rather than having the computer directly figure out the model by simply feeding it data, as we did in the two previous studies, we taught the computer how to choose or learn the right equations, and thus the right physics,” said Stanford postdoctoral researcher Stephen Dongmin Kang, a study co-author.

Patrick Herring, senior research scientist for Toyota Research Institute, which supported the work through its Accelerated Materials Design and Discovery program, said, “By understanding the fundamental reactions that occur within the battery, we can extend its life, enable faster charging, and ultimately design better battery materials."

Read SLAC’s release, “In a leap for battery research, machine learning gets scientific smarts.”

To Speed Discovery, Infrared Microscopy Goes ‘Off the Grid’
By Lori Tamura 

Question: What do a roundworm, a Sharpie pen, and high-vacuum grease have in common? Answer: They've all been analyzed in recent proof-of-principle microscopy experiments at Berkeley Lab's Advanced Light Source (ALS).

In the journal Communications Biology, researchers from Caltech, UC Berkeley, and the Berkeley Synchrotron Infrared Structural Biology Imaging Program (BSISB) reported a more efficient way to collect “high-dimensional” infrared images – where each pixel contains rich physical and chemical information. With the new method, scans that would’ve taken up to 10 hours to complete can now be done in under an hour, potentially broadening the scope of biological spectromicroscopy to time-sensitive experiments.

“We realized that sampling our model organism – the small roundworm C. elegans – as it changes over time was challenging for software rather than hardware reasons,” said Elizabeth Holman, a graduate student in chemistry at Caltech and co-first author of the paper. “For example, image sampling was limited to uniform-grid raster scans with rectangular boundaries and fixed distances between sample points.”

The new technique, implemented at the ALS with co-first author Yuan-Sheng Fang, a graduate student in physics at UC Berkeley, uses a grid-less, adaptive approach that autonomously increases sampling in areas displaying greater physical or chemical contrast. In the proof-of-concept infrared microscopy experiments, the researchers examined two samples.

The first was a two-component system in which both components (permanent-marker ink and high-vacuum grease) were well characterized. Details of the sample were very difficult to see clearly with the naked eye, so it was a good test of how the software would perform with minimal guidance from a human experimenter. The second sample was a live, larval-stage C. elegans, a biological model system studied by thousands of researchers. 

In both cases, autonomous adaptive data acquisition (AADA) methods clearly outperformed nonadaptive methods. In the second example, increased sampling density corresponded with known C. elegans anatomical features, and the head region was mapped in 45 minutes versus about 4.9 hours using commercially available software.

“Outside of our specific published work, the results suggest that integrating AADA into existing scanning-based satellite, drone, and/or microscope techniques can facilitate research in fields ranging from hyperspectral remote sensing to ocean and space exploration,” said Holman.

Actor in a Supporting Role: Substrate Effects on 2D Layers
By Lori Tamura

Atomically thin layers are of great technological interest because of potentially useful electronic properties that emerge as the layer thickness approaches the 2D limit. Such materials tend to form weak bonds outside the layer and are thus generally assumed to be unaffected by substrates that provide physical support.

To make further progress, however, scientists must rigorously test this assumption, not only to better understand single-layer physics, but also because the existence of substrate effects raises the possibility of tuning layer properties by tweaking the substrate. 

As reported in the journal Physical Review Letters, a team led by Tai-Chang Chiang of the University of Illinois at Urbana-Champaign and his postdoctoral associate, Meng-Kai Lin, used Berkeley Lab's Advanced Light Source (ALS) to probe changes in the electronic properties of a 2D semiconductor, titanium telluride, as the thickness of a substrate, platinum telluride, was increased. Single-layer titanium telluride is highly sensitive to what lies underneath, making it particularly useful as a test case for investigating substrate coupling effects.

The results showed that as the substrate thickness increased, a dramatic and systematic variation occurred in the single-layer titanium telluride. An electronic phenomenon known as a charge density wave — a coupled charge and lattice distortion characteristic of single-layer titanium telluride — was suppressed.

“The experimental findings, combined with first-principles theoretical simulations, led to a detailed explanation of the results in terms of the basic quantum mechanical interactions between the single layer and the tunable substrate,” said Lin.

Given that the interfacial bonding remained weak, the researchers concluded that the observed changes were correlated with the substrate’s transformation from a semiconductor to a semimetal as it increased in thickness.

“This systematic study illustrates the crucial role that substrate interactions play in the physics of ultrathin films,” said Lin. “The scientific understanding derived from our work also provides a framework for designing and engineering ultrathin films for useful and enhanced properties.”

 

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Newswise:Video Embedded ornl-partners-on-science-kits-for-stem-schools
VIDEO
Released: 17-May-2021 5:05 PM EDT
ORNL partners on science kits for STEM schools
Oak Ridge National Laboratory

Oak Ridge National Laboratory, the U.S. Department of Energy, the Center of Science and Industry and the Tennessee STEM Innovation Network have partnered to deliver hundreds of free science kits called Learning Lunchboxes to STEM-designated schools in East Tennessee.

Newswise: Argonne senior chemist Robert Tranter named fellow of the Combustion Institute
Released: 17-May-2021 11:40 AM EDT
Argonne senior chemist Robert Tranter named fellow of the Combustion Institute
Argonne National Laboratory

Argonne senior chemist Robert Tranter, a shockwave chemist, was named a fellow of the Combustion Institute.

Newswise:Video Embedded successful-start-of-dark-energy-spectroscopic-instrument-desi-follows-record-setting-trial-run
VIDEO
Released: 17-May-2021 9:00 AM EDT
Successful Start of Dark Energy Spectroscopic Instrument (DESI) Follows Record-Setting Trial Run
Lawrence Berkeley National Laboratory

A five-year quest to map the universe and unravel the mysteries of “dark energy” is beginning officially today, May 17, at Kitt Peak National Observatory near Tucson, Arizona. To complete its quest, the Dark Energy Spectroscopic Instrument (DESI) will capture and study the light from tens of millions of galaxies and other distant objects in the universe.

Newswise: Recycling Gives New Purpose to Spent Nuclear Fuel
Released: 14-May-2021 5:20 PM EDT
Recycling Gives New Purpose to Spent Nuclear Fuel
Pacific Northwest National Laboratory

PNNL researchers developed an innovative capability to rapidly separate, monitor, and tightly control specific uranium and plutonium ratios in real-time—an important achievement in efficiently controlling the resulting product and safeguarding nuclear material.

Newswise: Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Released: 14-May-2021 4:05 PM EDT
Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Department of Energy, Office of Science

To operate successfully, ITER and future fusion energy reactors cannot allow melting of the walls of the divertor plates that remove excess heat from the plasma in a reactor. These walls are especially at risk of melting when heat is applied to narrow areas. Now, however, an extreme-scale computing analysis indicates that turbulence will reduce that risk.

Newswise: Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Released: 14-May-2021 4:05 PM EDT
Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Department of Energy, Office of Science

To operate successfully, ITER and future fusion energy reactors cannot allow melting of the walls of the divertor plates that remove excess heat from the plasma in a reactor. These walls are especially at risk of melting when heat is applied to narrow areas. Now, however, an extreme-scale computing analysis indicates that turbulence will reduce that risk.

Newswise: Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Released: 14-May-2021 3:35 PM EDT
Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Department of Energy, Office of Science

To understand the effects of expanding biofuel production, scientists must accurately represent biofuel crops in land surface models. Using observations from biofuel plants in the Midwestern United States, researchers simulated two biofuel perennial plants, miscanthus and switchgrass. The simulations indicate these high-yield perennial crops have several advantages over traditional annual bioenergy crops—they assimilate more carbon dioxide, and they require fewer nutrients and less water.

Newswise: Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Released: 14-May-2021 3:35 PM EDT
Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Department of Energy, Office of Science

To understand the effects of expanding biofuel production, scientists must accurately represent biofuel crops in land surface models. Using observations from biofuel plants in the Midwestern United States, researchers simulated two biofuel perennial plants, miscanthus and switchgrass. The simulations indicate these high-yield perennial crops have several advantages over traditional annual bioenergy crops—they assimilate more carbon dioxide, and they require fewer nutrients and less water.

Newswise: Harvesting Light Like Nature Does
Released: 14-May-2021 2:55 PM EDT
Harvesting Light Like Nature Does
Pacific Northwest National Laboratory

A new class of bio-inspired two-dimensional (2D) hybrid nanomaterials mimic the ability of photosynthetic plants and bacteria.

Newswise: 050721-ber-earths-atomosphere.jpg?itok=-W-tcpvH
Released: 14-May-2021 2:50 PM EDT
Scientists Check the Math for Improved Models of Liquids and Gases in Earth’s Atmosphere
Department of Energy, Office of Science

Discretization is the process of converting continuous models and variables, such as wind speed, into discrete versions to make equations that are compatible with computer analysis. Energy consistent discretization ensures that the method does not have any inaccurate sources of energy that can lead to unstable and unrealistic simulations. In this research, scientists provided a discretization for equations used by global models of the Earth’s atmosphere.

View More
Newswise:Video Embedded ornl-partners-on-science-kits-for-stem-schools
VIDEO
Released: 17-May-2021 5:05 PM EDT
ORNL partners on science kits for STEM schools
Oak Ridge National Laboratory

Oak Ridge National Laboratory, the U.S. Department of Energy, the Center of Science and Industry and the Tennessee STEM Innovation Network have partnered to deliver hundreds of free science kits called Learning Lunchboxes to STEM-designated schools in East Tennessee.

Newswise: Argonne senior chemist Robert Tranter named fellow of the Combustion Institute
Released: 17-May-2021 11:40 AM EDT
Argonne senior chemist Robert Tranter named fellow of the Combustion Institute
Argonne National Laboratory

Argonne senior chemist Robert Tranter, a shockwave chemist, was named a fellow of the Combustion Institute.

Newswise:Video Embedded successful-start-of-dark-energy-spectroscopic-instrument-desi-follows-record-setting-trial-run
VIDEO
Released: 17-May-2021 9:00 AM EDT
Successful Start of Dark Energy Spectroscopic Instrument (DESI) Follows Record-Setting Trial Run
Lawrence Berkeley National Laboratory

A five-year quest to map the universe and unravel the mysteries of “dark energy” is beginning officially today, May 17, at Kitt Peak National Observatory near Tucson, Arizona. To complete its quest, the Dark Energy Spectroscopic Instrument (DESI) will capture and study the light from tens of millions of galaxies and other distant objects in the universe.

Newswise: Recycling Gives New Purpose to Spent Nuclear Fuel
Released: 14-May-2021 5:20 PM EDT
Recycling Gives New Purpose to Spent Nuclear Fuel
Pacific Northwest National Laboratory

PNNL researchers developed an innovative capability to rapidly separate, monitor, and tightly control specific uranium and plutonium ratios in real-time—an important achievement in efficiently controlling the resulting product and safeguarding nuclear material.

Newswise: Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Released: 14-May-2021 4:05 PM EDT
Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Department of Energy, Office of Science

To operate successfully, ITER and future fusion energy reactors cannot allow melting of the walls of the divertor plates that remove excess heat from the plasma in a reactor. These walls are especially at risk of melting when heat is applied to narrow areas. Now, however, an extreme-scale computing analysis indicates that turbulence will reduce that risk.

Newswise: Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Released: 14-May-2021 4:05 PM EDT
Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Department of Energy, Office of Science

To operate successfully, ITER and future fusion energy reactors cannot allow melting of the walls of the divertor plates that remove excess heat from the plasma in a reactor. These walls are especially at risk of melting when heat is applied to narrow areas. Now, however, an extreme-scale computing analysis indicates that turbulence will reduce that risk.

Newswise: Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Released: 14-May-2021 3:35 PM EDT
Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Department of Energy, Office of Science

To understand the effects of expanding biofuel production, scientists must accurately represent biofuel crops in land surface models. Using observations from biofuel plants in the Midwestern United States, researchers simulated two biofuel perennial plants, miscanthus and switchgrass. The simulations indicate these high-yield perennial crops have several advantages over traditional annual bioenergy crops—they assimilate more carbon dioxide, and they require fewer nutrients and less water.

Newswise: Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Released: 14-May-2021 3:35 PM EDT
Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Department of Energy, Office of Science

To understand the effects of expanding biofuel production, scientists must accurately represent biofuel crops in land surface models. Using observations from biofuel plants in the Midwestern United States, researchers simulated two biofuel perennial plants, miscanthus and switchgrass. The simulations indicate these high-yield perennial crops have several advantages over traditional annual bioenergy crops—they assimilate more carbon dioxide, and they require fewer nutrients and less water.

Newswise: Harvesting Light Like Nature Does
Released: 14-May-2021 2:55 PM EDT
Harvesting Light Like Nature Does
Pacific Northwest National Laboratory

A new class of bio-inspired two-dimensional (2D) hybrid nanomaterials mimic the ability of photosynthetic plants and bacteria.

Newswise: 050721-ber-earths-atomosphere.jpg?itok=-W-tcpvH
Released: 14-May-2021 2:50 PM EDT
Scientists Check the Math for Improved Models of Liquids and Gases in Earth’s Atmosphere
Department of Energy, Office of Science

Discretization is the process of converting continuous models and variables, such as wind speed, into discrete versions to make equations that are compatible with computer analysis. Energy consistent discretization ensures that the method does not have any inaccurate sources of energy that can lead to unstable and unrealistic simulations. In this research, scientists provided a discretization for equations used by global models of the Earth’s atmosphere.

View More
Newswise:Video Embedded ornl-partners-on-science-kits-for-stem-schools
VIDEO
Released: 17-May-2021 5:05 PM EDT
ORNL partners on science kits for STEM schools
Oak Ridge National Laboratory

Oak Ridge National Laboratory, the U.S. Department of Energy, the Center of Science and Industry and the Tennessee STEM Innovation Network have partnered to deliver hundreds of free science kits called Learning Lunchboxes to STEM-designated schools in East Tennessee.

Newswise: Argonne senior chemist Robert Tranter named fellow of the Combustion Institute
Released: 17-May-2021 11:40 AM EDT
Argonne senior chemist Robert Tranter named fellow of the Combustion Institute
Argonne National Laboratory

Argonne senior chemist Robert Tranter, a shockwave chemist, was named a fellow of the Combustion Institute.

Newswise:Video Embedded successful-start-of-dark-energy-spectroscopic-instrument-desi-follows-record-setting-trial-run
VIDEO
Released: 17-May-2021 9:00 AM EDT
Successful Start of Dark Energy Spectroscopic Instrument (DESI) Follows Record-Setting Trial Run
Lawrence Berkeley National Laboratory

A five-year quest to map the universe and unravel the mysteries of “dark energy” is beginning officially today, May 17, at Kitt Peak National Observatory near Tucson, Arizona. To complete its quest, the Dark Energy Spectroscopic Instrument (DESI) will capture and study the light from tens of millions of galaxies and other distant objects in the universe.

Newswise: Recycling Gives New Purpose to Spent Nuclear Fuel
Released: 14-May-2021 5:20 PM EDT
Recycling Gives New Purpose to Spent Nuclear Fuel
Pacific Northwest National Laboratory

PNNL researchers developed an innovative capability to rapidly separate, monitor, and tightly control specific uranium and plutonium ratios in real-time—an important achievement in efficiently controlling the resulting product and safeguarding nuclear material.

Newswise: Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Released: 14-May-2021 4:05 PM EDT
Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Department of Energy, Office of Science

To operate successfully, ITER and future fusion energy reactors cannot allow melting of the walls of the divertor plates that remove excess heat from the plasma in a reactor. These walls are especially at risk of melting when heat is applied to narrow areas. Now, however, an extreme-scale computing analysis indicates that turbulence will reduce that risk.

Newswise: Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Released: 14-May-2021 4:05 PM EDT
Not Just Disturbance: Turbulence Protects Fusion Reactor Walls
Department of Energy, Office of Science

To operate successfully, ITER and future fusion energy reactors cannot allow melting of the walls of the divertor plates that remove excess heat from the plasma in a reactor. These walls are especially at risk of melting when heat is applied to narrow areas. Now, however, an extreme-scale computing analysis indicates that turbulence will reduce that risk.

Newswise: Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Released: 14-May-2021 3:35 PM EDT
Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Department of Energy, Office of Science

To understand the effects of expanding biofuel production, scientists must accurately represent biofuel crops in land surface models. Using observations from biofuel plants in the Midwestern United States, researchers simulated two biofuel perennial plants, miscanthus and switchgrass. The simulations indicate these high-yield perennial crops have several advantages over traditional annual bioenergy crops—they assimilate more carbon dioxide, and they require fewer nutrients and less water.

Newswise: Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Released: 14-May-2021 3:35 PM EDT
Enhancing Land Surface Models to Grow Perennial Bioenergy Crops
Department of Energy, Office of Science

To understand the effects of expanding biofuel production, scientists must accurately represent biofuel crops in land surface models. Using observations from biofuel plants in the Midwestern United States, researchers simulated two biofuel perennial plants, miscanthus and switchgrass. The simulations indicate these high-yield perennial crops have several advantages over traditional annual bioenergy crops—they assimilate more carbon dioxide, and they require fewer nutrients and less water.

Newswise: Harvesting Light Like Nature Does
Released: 14-May-2021 2:55 PM EDT
Harvesting Light Like Nature Does
Pacific Northwest National Laboratory

A new class of bio-inspired two-dimensional (2D) hybrid nanomaterials mimic the ability of photosynthetic plants and bacteria.

Newswise: 050721-ber-earths-atomosphere.jpg?itok=-W-tcpvH
Released: 14-May-2021 2:50 PM EDT
Scientists Check the Math for Improved Models of Liquids and Gases in Earth’s Atmosphere
Department of Energy, Office of Science

Discretization is the process of converting continuous models and variables, such as wind speed, into discrete versions to make equations that are compatible with computer analysis. Energy consistent discretization ensures that the method does not have any inaccurate sources of energy that can lead to unstable and unrealistic simulations. In this research, scientists provided a discretization for equations used by global models of the Earth’s atmosphere.

View More

Spotlight

ORNL partners on science kits for STEM schools
Mon, 17 May 2021 17:05:21 EST

ORNL partners on science kits for STEM schools

Oak Ridge National Laboratory

Graduate students gather virtually for summer school at PPPL
Mon, 05 Oct 2020 15:45:57 EST

Graduate students gather virtually for summer school at PPPL

Princeton Plasma Physics Laboratory

Virtual internships for physics students present challenges, build community
Tue, 15 Sep 2020 15:35:30 EST

Virtual internships for physics students present challenges, build community

Princeton Plasma Physics Laboratory

Blocking the COVID-19 Virus's Exit Strategy
Mon, 31 Aug 2020 15:05:12 EST

Blocking the COVID-19 Virus's Exit Strategy

Brookhaven National Laboratory

Summer Students Tackle COVID-19
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Summer Students Tackle COVID-19

Brookhaven National Laboratory

Graduate student at PPPL Ian Ochs wins top Princeton University fellowship
Fri, 17 Apr 2020 16:25:17 EST

Graduate student at PPPL Ian Ochs wins top Princeton University fellowship

Princeton Plasma Physics Laboratory

Barbara Garcia: A first-generation college student spends summer doing research at PPPL
Tue, 24 Sep 2019 15:05:51 EST

Barbara Garcia: A first-generation college student spends summer doing research at PPPL

Princeton Plasma Physics Laboratory

Argonne organization’s scholarship fund blazes STEM pathway
Tue, 17 Sep 2019 16:05:11 EST

Argonne organization’s scholarship fund blazes STEM pathway

Argonne National Laboratory

Brookhaven Lab, Suffolk Girl Scouts Launch Patch Program
Fri, 13 Sep 2019 10:30:34 EST

Brookhaven Lab, Suffolk Girl Scouts Launch Patch Program

Brookhaven National Laboratory

Brookhaven Lab Celebrates the Bright Future of its 2019 Interns
Fri, 30 Aug 2019 09:00:26 EST

Brookhaven Lab Celebrates the Bright Future of its 2019 Interns

Brookhaven National Laboratory

PPPL apprenticeship program offers young people chance to earn while they learn high-tech careers
Thu, 01 Aug 2019 11:05:23 EST

PPPL apprenticeship program offers young people chance to earn while they learn high-tech careers

Princeton Plasma Physics Laboratory

Creating a diverse pipeline
Fri, 19 Jul 2019 12:05:33 EST

Creating a diverse pipeline

Princeton Plasma Physics Laboratory

JSA Awards Graduate Fellowships for Research at Jefferson Lab
Mon, 08 Jul 2019 14:00:16 EST

JSA Awards Graduate Fellowships for Research at Jefferson Lab

Thomas Jefferson National Accelerator Facility

ILSAMP Symposium showcases benefits for diverse students, STEM pipeline
Mon, 20 May 2019 11:05:42 EST

ILSAMP Symposium showcases benefits for diverse students, STEM pipeline

Argonne National Laboratory

Integrating Scientific Computing into Science Curricula
Mon, 13 May 2019 10:05:46 EST

Integrating Scientific Computing into Science Curricula

Brookhaven National Laboratory

Students from Minnesota and Massachusetts Win DOE’s 29th National Science Bowl®
Mon, 29 Apr 2019 13:05:21 EST

Students from Minnesota and Massachusetts Win DOE’s 29th National Science Bowl®

Department of Energy, Office of Science

Young Women’s Conference in STEM seeks to change the statistics one girl at a time
Thu, 28 Mar 2019 14:05:07 EST

Young Women’s Conference in STEM seeks to change the statistics one girl at a time

Princeton Plasma Physics Laboratory

Students team with Argonne scientists and engineers to learn about STEM careers
Tue, 12 Mar 2019 16:05:09 EST

Students team with Argonne scientists and engineers to learn about STEM careers

Argonne National Laboratory

Lynbrook High wins 2019 SLAC Regional Science Bowl competition
Wed, 13 Feb 2019 14:05:35 EST

Lynbrook High wins 2019 SLAC Regional Science Bowl competition

SLAC National Accelerator Laboratory

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Thu, 24 Jan 2019 13:05:29 EST

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Argonne National Laboratory

Chemistry intern inspired by Argonne’s real-world science
Fri, 18 Jan 2019 17:05:40 EST

Chemistry intern inspired by Argonne’s real-world science

Argonne National Laboratory

Chasing a supernova
Fri, 18 Jan 2019 16:05:20 EST

Chasing a supernova

Argonne National Laboratory

Argonne intern streamlines the beamline
Tue, 08 Jan 2019 14:05:01 EST

Argonne intern streamlines the beamline

Argonne National Laboratory

Research on Light-Matter Interaction Could Lead to Improved Electronic and Optoelectronic Devices
Thu, 11 Oct 2018 15:00:00 EST

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

Rensselaer Polytechnic Institute (RPI)

Innovating Our Energy Future
Wed, 03 Oct 2018 18:05:41 EST

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

University of Alabama at Birmingham

“Model” students enjoy Argonne campus life
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“Model” students enjoy Argonne campus life

Argonne National Laboratory

Writing Code for a More Skilled and Diverse STEM Workforce
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Brookhaven National Laboratory

New graduate student summer school launches at Princeton Plasma Physics Laboratory
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New graduate student summer school launches at Princeton Plasma Physics Laboratory

Princeton Plasma Physics Laboratory

The Gridlock State
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The Gridlock State

California State University (CSU) Chancellor's Office

Meet Jasmine Hatcher and Trishelle Copeland-Johnson
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Meet Jasmine Hatcher and Trishelle Copeland-Johnson

Brookhaven National Laboratory

Argonne hosts Modeling, Experimentation and Validation Summer School
Fri, 24 Aug 2018 10:05:27 EST

Argonne hosts Modeling, Experimentation and Validation Summer School

Argonne National Laboratory

Students affected by Hurricane Maria bring their research to SLAC
Wed, 22 Aug 2018 12:05:42 EST

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SLAC National Accelerator Laboratory

Brookhaven Lab Pays Tribute to 2018 Summer Interns
Wed, 22 Aug 2018 09:05:24 EST

Brookhaven Lab Pays Tribute to 2018 Summer Interns

Brookhaven National Laboratory

Changing How Buildings Are Made
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Changing How Buildings Are Made

Washington University in St. Louis

CSUMB Selected to Host Architecture at Zero Competition in 2019
Thu, 16 Aug 2018 11:05:02 EST

CSUMB Selected to Host Architecture at Zero Competition in 2019

California State University, Monterey Bay

Department of Energy Invests $64 Million in Advanced Nuclear Technology
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Rensselaer Polytechnic Institute (RPI)

Professor Miao Yu Named the Priti and Mukesh Chatter ’82 Career Development Professor
Thu, 19 Jul 2018 16:00:00 EST

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Rensselaer Polytechnic Institute (RPI)

2018 RHIC & AGS Annual Users' Meeting: 'Illuminating the QCD Landscape'
Tue, 03 Jul 2018 10:05:10 EST

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

Brookhaven National Laboratory

Argonne welcomes <em>The Martian</em> author Andy Weir
Fri, 29 Jun 2018 17:05:17 EST

Argonne welcomes The Martian author Andy Weir

Argonne National Laboratory

Creating STEM Knowledge and Innovations to Solve Global Issues Like Water, Food, and Energy
Mon, 18 Jun 2018 08:55:34 EST

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

Illinois Mathematics and Science Academy (IMSA)

Professor Emily Liu Receives $1.8 Million DoE Award for Solar Power Systems Research
Fri, 15 Jun 2018 09:00:41 EST

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

Rensselaer Polytechnic Institute (RPI)

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