Not exact matches
The
researchers mimicked cosmic - radiation exposure by briefly bombarding the brains of
lab mice with high -
energy particles.
Chris Randall walks through the halls of Huntsville, Alabama's A&M University proudly carrying the souvenir bag he got from being an undergraduate
researcher at the Oak Ridge National Laboratory (ORNL), the Department of
Energy's (DOE) largest science laboratory, and one of the most prestigious government - run
labs in the U.S..
Researchers at the U.S. Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have demonstrated in the laboratory a lithium - sulfur (Li / S) battery that has more than twice the specific energy of lithium - ion batteries, and that lasts for more than 1,500 cycles of charge - discharge with minimal decay of the battery's cap
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) have demonstrated in the laboratory a lithium - sulfur (Li / S) battery that has more than twice the specific
energy of lithium - ion batteries, and that lasts for more than 1,500 cycles of charge - discharge with minimal decay of the battery's cap
energy of lithium - ion batteries, and that lasts for more than 1,500 cycles of charge - discharge with minimal decay of the battery's capacity.
Now
researchers at the Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) report major progress in cathodes made with so - called «disordered» materials, a promising new type of lithium battery.
Researchers at the U.S. Department of
Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley
Lab) have successfully grown atomically thin 2D sheets of organic - inorganic hybrid perovskites from solution.
The method was developed at Berkeley
Lab's Advanced Light Source, a DOE Office of Science User Facility, by a team of
researchers from the Department of
Energy's SLAC National Accelerator Laboratory, Berkeley
Lab, Stanford University, and other institutions.
Chemist John Pojman of Louisiana State University in Baton Rouge adds that such roving droplets «might be useful as a pumping mechanism for microfluidics, converting chemical
energy to mechanical motion in small devices,» such as the microfluidic
labs - on - a-chip many
researchers are developing as diagnostic machines.
The
researchers developed the gas - to - liquid technology in collaboration with an industrial partner in UTA's Center for Renewable
Energy and Science Technology, or CREST,
lab, and are now working to commercialize the process.
Researchers at the Movement
Lab at Ohio State University (OSU), Columbus, wondered whether we naturally move in a way that minimizes
energy when we're out in the real world.
So say
researchers at E.I. du Pont de Nemours & Co., which alongside Seattle - based Bio Architecture
Lab (BAL) has secured $ 9 million from the Department of
Energy to explore seaweed's potential as a feedstock for biobutanol, an advanced biofuel.
Researchers with the U.S. Department of
Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley
Lab) have identified the microenvironment surrounding microvasculature — the small blood vessels that transport blood within tissues — as a niche where dormant cancer cells reside.
Sandia National Laboratories mechanical engineer Terry Johnson, left, the project leader for the Hydrogen Station Equipment Performance (HyStEP) device, and National Renewable
Energy Laboratory
researcher Chris Ainscough prepare HyStEP for testing at NREL's
Energy Systems Integration
Lab.
Department of
Energy national
lab researchers found strain dramatically influences low - temperature oxygen electrocatalysis on perovskite oxides, enhancing bifunctional activity essential for fuel cells and metal — air batteries.
An international team led by
researchers from the U.S. Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) used advanced techniques in electron microscopy to show how the ratio of materials that make up a lithium - ion battery electrode affects its structure at the atomic level, and how the surface is very different from the rest of the material.
In this new work, Wang's team refined a probe that makes use of a phenomenon
researchers at Berkeley
Lab first theoretically outlined 20 years ago:
energy loss of a high -
energy particle, called a jet, inside the quark gluon plasma.
The multi-institutional team known as the JET Collaboration, led by
researchers at the U.S. Department of
Energy's Lawrence Berkeley National
Lab (Berkeley
Lab), published their results in a recent issue of Physical Review C.
Researchers at the U.S. Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) have engineered a strain of bacteria that enables a «one - pot» method for producing advanced biofuels from a slurry of pre-treated plant material.
The Natron
Energy researchers studied the battery materials at Berkeley
Lab's Molecular Foundry, a nanoscience center, and then offered up some sample battery cells for study at the ALS.
When
researchers measured the metabolic rates of this intricately patterned insect, they found that butterflies that expended the most
energy during flight also lived the longest, whether they were
lab - bound or released to island meadows in Finland.
Researchers at Lawrence Livermore and the U.S. Department of
Energy's National
Energy Technology
Lab are now working on enhancements to the capture process to bring the technology to scale.
Klein is a
researcher at the Alternative
Energies and Atomic
Energy Commission, where he leads a
lab for material sciences in Saclay, France.
Photons with too little
energy «will just sail right on through» the light - catching layer and never get absorbed, says Daniel Friedman, a photovoltaic researcher at the National Renewable Energ
energy «will just sail right on through» the light - catching layer and never get absorbed, says Daniel Friedman, a photovoltaic
researcher at the National Renewable
EnergyEnergy Lab.
While quantum technologies remain grist for science fiction, a team of
researchers with the U.S. Department of
Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley
Lab) have taken an important step towards efficient light generation, the foundation for future quantum networks.
Researchers at another DOE
lab, the National Renewable
Energy Laboratory (NREL), recently made a related discovery, using a chemical reaction in a hybrid perovskite to demonstrate a switchable solar window.
A small but important step toward this goal has been achieved by an international collaboration of
researchers from China's Tsinghua University and the U.S. Department of
Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley
Lab) working at the Advanced Light Source (ALS).
Researchers with the U.S. Department of
Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley
Lab) and the University of California (UC) Berkeley have demonstrated that diamonds may hold the key to the future for nuclear magnetic resonance (NMR) and magnetic resonance imaging (MRI) technologies
The
researchers, from Brown University and the National Renewable
Energy Lab (NREL), have reported their findings in the journal Advanced Materials.
The USC
researchers applied a regional climate model to California, and Berkeley
Lab ran simulations of building
energy consumption.
The tool they used to make these evaluations, the Multicriteria Analysis for Planning Renewable
Energy (MapRE, at mapre.lbl.gov) was developed at Berkeley
Lab in collaboration with IRENA and is open - source and publicly available to
researchers and policymakers.
The lead authors are Deshmukh and Grace C. Wu, both Berkeley
Lab researchers in the
Energy Technologies Area.
So this research has set out «to analyse the capacity new materials have to absorb solar
energy as well as to seek appropriate strategies to move from the
lab to actual operations,» pointed out Ikerne Etxebarria, a
researcher of the UPV / EHU and IK4 - Ikerlan.
Now, in a bid to continue decreasing transistor size while increasing computation and
energy efficiency, chip - maker Intel has partnered with researchers from the U.S. Department of Energy's Lawrence Berkeley National Lab (Berkeley Lab) to design an entirely new kind of r
energy efficiency, chip - maker Intel has partnered with
researchers from the U.S. Department of
Energy's Lawrence Berkeley National Lab (Berkeley Lab) to design an entirely new kind of r
Energy's Lawrence Berkeley National
Lab (Berkeley
Lab) to design an entirely new kind of resist.
Now
researchers at the Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) and UC Berkeley have come up with a novel machine learning method that enables scientists to derive insights from systems of previously intractable complexity in record time.
Researchers at two U.S. Department of
Energy national
labs, Jefferson
Lab and Argonne National
Lab, participated in the research.
Cancer cells are well - known as voracious
energy consumers, but even veteran cancer - metabolism
researcher Deepak Nagrath was surprised by their latest exploit: Experiments in his
lab at Rice University show that some cancer cells get 30 - 60 percent of their fuel from eating their neighbors» «words.»
Sunitha Sadula, a postdoctoral
researcher at UD's Catalysis Center for
Energy Innovation, a DOE
Energy Frontier Research Center, works in the
lab to extract sugars from wood chips, corn cobs and other forest and farm waste.
Invented by
researchers with the U.S. Department of
Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley
Lab) and the University of California (UC) Berkeley, CLAIRE extends the incredible resolution of electron microscopy to the dynamic imaging of soft matter.
The experiments, led by the Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley Lab), are helping researchers narrow down the process by which the protein, called photosystem II, uses light energy to split water and create o
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab), are helping
researchers narrow down the process by which the protein, called photosystem II, uses light
energy to split water and create o
energy to split water and create oxygen.
«The driving idea behind the research is knowing that AMPK serves as a sensor for low
energy loss in cells and that LKB1 - deficient cells lack the ability to activate AMPK and sense
energy loss,» says David Shackelford, a postdoctoral
researcher at Salk who spearheaded the study in Shaw's
lab and is now an assistant professor at UCLA's David Geffen School of Medicine.
Researchers at the Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) are working to understand — and manipulate — plant photoprotection mechanisms, such as a process called NPQ, or nonphotochemical quenching, which helps dissipate excess light energy inside chlorop
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) are working to understand — and manipulate — plant photoprotection mechanisms, such as a process called NPQ, or nonphotochemical quenching, which helps dissipate excess light
energy inside chlorop
energy inside chloroplasts.
Howard is part of a team of UNLV
researchers led by Yusheng Zhao, head of the university's new
energy materials
lab.
A crucial piece of the puzzle behind nature's ability to split the water molecule during photosynthesis that could help advance the development of artificial photosynthesis for clean, green and renewable
energy has been provided by an international collaboration of scientists led by
researchers with the Lawrence Berkeley National Laboratory (Berkeley
Lab) and the SLAC National Accelerator Laboratory.
Researchers at the Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) are contributing key components for the project, known as LCLS - II, that will greatly increase the power and capacity of the Linac Coherent Light Source (LCLS), a free - electron X-ray laser at the DOE's SLAC National Accelerator Laboratory in Menlo Park, Calif..
Researchers at the Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) and UC Berkeley have discovered that as plants develop they craft their root microbiome, favoring microbes that consume very specific metabolites.
Researchers from three US national
labs — Pacific Northwest National Laboratory (PNNL), Idaho National Laboratory (INL) and the National Renewable
Energy Laboratory (NREL)-- have performed the first, fully integrated assessment of the quality and yield of common feedstocks from the field to hydrocarbon blendstock production using the fast pyrolysis - hydrotreating pathway.
...
researchers working with magnetic nanoparticles at the University of California, Los Angeles (UCLA), and the US Department of
Energy's (DOE's) Lawrence Berkeley National Laboratory (Berkeley
Lab) approached computational scientists at DOE's Oak Ridge National Laboratory (ORNL) to help solve a unique problem: to model magnetism at the atomic level using experimental data from a real nanoparticle.
That's why a team of
researchers from the Department of
Energy's (DOE's) Lawrence Berkeley National Laboratory (Berkeley
Lab) and Joint Genome Institute (JGI) took one of the most popular clustering approaches in modern biology — the Markov Clustering (MCL) algorithm — and modified it to run quickly, efficiently and at scale on distributed - memory supercomputers.
Now, a team of
researchers led by scientists at the U.S. Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) have reported that a new lithium - sulfur battery component allows a doubling in capacity compared to a conventional lithium - sulfur battery, even after more than 100 charge cycles at high current densities, which are key performance metrics for their adoption in electric vehicles (EVs) and in aviation.
Researchers at the Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab) and UC Berkeley have created a sort of nanoscale display case that enables new atomic - scale views of hard - to - study chemical and biological samples.
A new two - dimensional film, made of polymers and nanoparticles and developed by
researchers at the Department of
Energy's Lawrence Berkeley National Laboratory (Berkeley
Lab), can direct two different non-mixing liquids into a variety of exotic architectures.