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.
SLAC National Accelerator Laboratory

First closeups of how a lithium-metal electrode ages

Scientists have documented a process that makes these next-gen batteries lose charge – and eventually some of their capacity for storing energy – even when a device is turned off.

Newswise — The same process that drains the battery of your cell phone even when it’s turned off is even more of a problem for lithium-metal batteries, which are being developed for the next generation of smaller, lighter electronic devices, far-ranging electric vehicles and other uses.

Now scientists at Stanford University and the Department of Energy’s SLAC National Accelerator Laboratory have taken the first atomic-scale look at how this process, called “calendar aging,” attacks lithium-metal anodes, or negative electrodes. They discovered that the nature of the battery electrolyte, which carries charge between the electrodes, has a big impact on aging – a factor that needs to be taken into account when developing electrolytes that maximize a battery’s performance.

The study also revealed that calendar aging can drain 2-3% of a lithium-metal battery’s charge in just 24 hours – a loss that would take three years in a lithium-ion battery. Although this charge seepage slows over time, it quickly adds up and can reduce the battery’s lifetime by 25%.

“Our work suggests that the electrolyte can make a big difference in the stability of stored batteries,” said SLAC and Stanford Professor Yi Cui, who led the study with Stanford Professor Zhenan Bao. “This is something people haven’t really spent time looking at or using as a way to understand what’s going on.”

The research team described their results in Nature Energy today.

Lighter batteries for far-ranging cars

Like today’s lithium-ion batteries, lithium-metal batteries use lithium ions to ferry charge back and forth between the electrodes. But where lithium-ion batteries have anodes made of graphite, lithium-metal batteries have anodes made of lithium metal, which is much lighter and has the potential to store a lot more energy for a given volume and weight. This is especially important for electric vehicles, which spend a significant amount of energy lugging their heavy batteries around. Lightening their load could drop their cost and increase their driving range, making them more appealing to consumers.

The DOE’s Battery 500 Consortium, including SLAC and Stanford, has a goal of developing lithium-metal batteries for electric vehicles that can store almost three times as much charge per unit weight as today’s EV batteries. While they’ve made a lot of progress in increasing the energy density and lifetime of these batteries, they still have a ways to go. They’re also wrestling with the problem of dendrites, finger-like growths on the anode that can make a battery short out and catch fire.

Over the past few years, Bao and Cui, who are investigators with the Stanford Institute for Materials and Energy Sciences at SLAC, have teamed up to find solutions to these problems, including a new coating to prevent dendrite growth on lithium-metal anodes and a new electrolyte that also keeps dendrites from growing. 

Most such studies have focused on minimizing damage caused by repeated charging and discharging, which strains and cracks electrodes and limits the battery’s working lifetime, said David Boyle, a PhD student in Cui’s lab.

But in this study, he said, the team wanted to test a variety of electrolytes with different chemical makeups to get a general picture of how lithium-metal anodes age.

Aggressive corrosion

First, Boyle measured the charging efficiency of lithium-metal batteries containing various types of electrolytes. Then he and fellow PhD student William Huang carefully dismantled batteries that had been fully charged and left to sit for a day, removed the anode and flash froze it in liquid nitrogen to preserve its structure and chemistry at a specific point in the calendar aging process.

Next, Huang examined the anodes with a cryogenic electron microscope, or cryo-EM, on the Stanford campus to see how the various electrolytes affected the anode at close to atomic scale. It’s an approach Cui’s group pioneered a few years ago for looking at the inner lives of battery components.

In today’s lithium-ion batteries, the electrolyte corrodes the surface of the anode, creating a layer called the solid-electrolyte interphase, or SEI. This layer is both Jekyll and Hyde: It consumes a small amount of battery capacity, but it also protects the anode from further corrosion. So on balance, a smooth, stable SEI layer is good for battery functioning.

But in lithium-metal batteries, a thin layer of lithium metal is deposited on the surface of the anode every time the battery charges, and this layer offers a fresh surface for corrosion during calendar aging. In addition, “We found much more aggressive growth of the SEI layer on these anodes due to more aggressive chemical reactions with the electrolyte,” Huang said. Each electrolyte they tested gave rise to a distinctive pattern of SEI growth, with some forming clumps, films or both, and those irregular growth patterns were associated with faster corrosion and a loss of charging efficiency.

Finding a balance

Contrary to expectations, electrolytes that would otherwise support highly efficient charging were just as prone to drops in efficiency due to calendar aging as poorly performing electrolytes, Cui said. There was no one electrolyte chemistry that did both things well.

So to minimize calendar aging, the challenge will be to minimize both the corrosive nature of the electrolyte and the extent of the lithium metal on the anode’s surface that it can attack.

“What’s really important is that this gives us a new way of investigating which electrolytes are most promising,” Bao said. “It points out a new electrolyte design criterion for achieving the parameters we need for the next generation of battery technology.”

This research was supported by the DOE Office of Vehicle Technologies under the Battery Materials Research Program and the Battery 500 Consortium. Parts of the work were performed at the Stanford Nano Shared Facilities.

 


SLAC is a vibrant multiprogram laboratory that explores how the universe works at the biggest, smallest and fastest scales and invents powerful tools used by scientists around the globe. With research spanning particle physics, astrophysics and cosmology, materials, chemistry, bio- and energy sciences and scientific computing, we help solve real-world problems and advance the interests of the nation.

SLAC is operated by Stanford University for the U.S. Department of Energy’s Office of Science. The Office of Science is the single largest supporter of basic research in the physical sciences in the United States and is working to address some of the most pressing challenges of our time.

SEE ORIGINAL STUDY

MEDIA CONTACT
Register for reporter access to contact details
Newswise: First closeups of how a lithium-metal electrode ages

Credit: Greg Stewart/SLAC National Accelerator Laboratory

Caption: Scientists at SLAC and Stanford have documented a process called calendar aging that can cause lithium-metal batteries to lose 2-3% of their charge in just 24 hours even when a device is turned off, and cut its lifetime by 25%. The study suggests that choosing the right electrolyte can minimize the clumpy corrosion that causes aging.

Newswise: First closeups of how a lithium-metal electrode ages

Credit: Hongxia Wang/Stanford University

Caption: Next-gen lithium metal batteries undergo rapid calendar aging, which drains the battery even when it’s not being used and saps its capacity for storing energy. It happens when the battery electrolyte corrodes lithium metal anode particles (top left) or lithium metal filaments that form on the anode during charging (top right). The corrosion creates irregular clumps of a layer called SEI (bottom left and right). A SLAC-Stanford study found that some electrolytes cause more of this damaging corrosion pattern than others. (Hongxia Wang/Stanford University).

Newswise: First closeups of how a lithium-metal electrode ages

Credit: William Huang/Stanford University

Caption: Each time a lithium metal battery charges, a fresh layer of lithium metal is deposited on its anode. The battery’s electrolyte corrodes this fresh metal, (left), forming a layer called SEI on the anode’s surface. The corrosion continues (right) even after the battery is turned off, and the SEI layer becomes irregular and clumpy in a process called calendar aging that can drain 2-3% of the battery’s charge in just 24 hours, according to a SLAC-Stanford study. These images were made with cryogenic electron microscopy, or cryo-EM. (William Huang/Stanford University)

CITATIONS

David T. Boyle et al., Nature Energy, 22 March 2021 (10.1038/s41560-021-00787-9)

Download PDF
161643719130882_s41560-021-00787-9.pdf
DOE-Explains
X
X
X


Filters close
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.

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: 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.

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: 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.

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

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
Mon, 31 Aug 2020 14:35:39 EST

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

Equipping the next generation for a technological revolution
Thu, 24 Jan 2019 13:05:29 EST

Equipping the next generation for a technological revolution

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

Innovating Our Energy Future

Oregon State University, College of Engineering

Physics graduate student takes her thesis research to a Department of Energy national lab
Tue, 02 Oct 2018 14:05:36 EST

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
Fri, 21 Sep 2018 12:05:48 EST

“Model” students enjoy Argonne campus life

Argonne National Laboratory

Writing Code for a More Skilled and Diverse STEM Workforce
Thu, 06 Sep 2018 12:05:58 EST

Writing Code for a More Skilled and Diverse STEM Workforce

Brookhaven National Laboratory

New graduate student summer school launches at Princeton Plasma Physics Laboratory
Tue, 04 Sep 2018 10:30:12 EST

New graduate student summer school launches at Princeton Plasma Physics Laboratory

Princeton Plasma Physics Laboratory

The Gridlock State
Fri, 31 Aug 2018 17:05:07 EST

The Gridlock State

California State University (CSU) Chancellor's Office

Meet Jasmine Hatcher and Trishelle Copeland-Johnson
Fri, 31 Aug 2018 13:05:55 EST

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

Students affected by Hurricane Maria bring their research to SLAC

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
Mon, 20 Aug 2018 11:05:19 EST

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
Fri, 20 Jul 2018 14:00:00 EST

Department of Energy Invests $64 Million in Advanced Nuclear Technology

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

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

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)

Celebrating 40 years of empowerment in science
Thu, 07 Jun 2018 14:05:50 EST

Celebrating 40 years of empowerment in science

Argonne National Laboratory

Showing results

0-6 Of 50
close
7.981