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NIST develops prototype meter test for hydrogen refueling stations

July 22, 2014 2:20 pm | News | Comments

Three automakers plan to begin selling hydrogen-fueled vehicles to consumers in 2015. To support the fair sale of gaseous hydrogen as a vehicle fuel, researchers at NIST have developed a prototype field test standard to test the accuracy of hydrogen fuel dispensers. Once the standard is field tested, it will serve as a model for constructing similar devices for state weights and measures inspectors to use.

Steam from the sun

July 21, 2014 7:55 am | by Jennifer Chu, MIT News Office | News | Comments

A new material structure developed at Massachusetts Institute of Technology generates steam by...

Mats made from shrimp chitin attract uranium like a magnet

July 18, 2014 11:16 am | News | Comments

A Univ. of Alabama start-up company, 525 Solutions...

First ab initio method for characterizing hot carriers

July 18, 2014 8:19 am | by Lynn Yarris, Lawrence Berkeley National Laboratory | News | Comments

One of the major road blocks to the design and development of new, more efficient solar cells...

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After hybrid success, Toyota gambles on fuel cell

July 17, 2014 8:55 am | by Yuri Kageyama, AP Business Writer | News | Comments

Long dismissed as too impractical and expensive for everyday cars, fuel cell technology is getting a push into the mainstream by Toyota, the world's top-selling automaker. Buoyed by its success with electric-gasoline hybrid vehicles, Toyota is betting that drivers will embrace hydrogen fuel cells, an even cleaner technology. The company’s fuel cell car will go on sale before April next year.

Labs characterize carbon for batteries

July 15, 2014 8:04 am | by Mike Williams, Rice Univ. | News | Comments

Lithium-ion batteries could benefit from a theoretical model created at Rice Univ. and Lawrence Livermore National Laboratory that predicts how carbon components will perform as electrodes. The model is based on intrinsic electronic characteristics of materials used as battery anodes. These include the material’s quantum capacitance and the material’s absolute Fermi level.

Getting a charge out of water droplets

July 15, 2014 7:53 am | by David L. Chandler, MIT News Office | News | Comments

Last year, Massachusetts Institute of Technology researchers discovered that when water droplets spontaneously jump away from superhydrophobic surfaces during condensation, they can gain electric charge in the process. Now, the same team has demonstrated that this process can generate small amounts of electricity that might be used to power electronic devices.

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Chemists develop technology to produce clean-burning hydrogen fuel

July 14, 2014 9:12 am | News | Comments

Rutgers Univ. researchers have developed a technology that could overcome a major cost barrier to make clean-burning hydrogen fuel. The new catalyst is based on carbon nanotubes and may rival cost-prohibitive platinum for reactions that split water into hydrogen and oxygen.

Inventor pushes solar panels for roads, highways

July 11, 2014 11:33 am | by Nicholas K. Geranios, Associated Press | News | Comments

The solar panels that Idaho inventor Scott Brusaw has built aren't meant for rooftops. They are meant for roads, driveways, parking lots, bike trails and, eventually, highways. Brusaw, an electrical engineer, says the hexagon-shaped panels can withstand the wear and tear that comes from inclement weather and vehicles, big and small, to generate electricity.

2014 R&D 100 Award winners announced

July 11, 2014 9:32 am | by Lindsay Hock, Managing Editor | Award Winners

The editors of R&D Magazine have announced the winners of the 52nd annual R&D 100 Awards, an international competition that recognizes the 100 most technologically significant products introduced into the marketplace over the past year. The R&D 100 Awards recognize excellence across a wide range of industries...

2014 R&D 100 Award Winners

July 11, 2014 7:30 am | Award Winners

Introducing R&D Magazine's 2014 R&D 100 Award winners. The 2014 R&D 100 Award Winners are listed below in alphabetical order by the name of the primary developer company.

Engineering a more efficient fuel cell

July 9, 2014 10:38 am | by Glen Martin, Stanford New Service | News | Comments

Using high-brilliance x-rays, Stanford Univ. researchers track the process that fuel cells use to produce electricity, knowledge that will help make large-scale alternative energy power systems more practical and reliable. Fuel cells use oxygen and hydrogen as fuel to create electricity; if the process were run in reverse, the fuel cells could be used to store electricity, as well.  

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Chemists develop novel catalyst with two functions

July 9, 2014 8:47 am | by Dr. Julia Weiler, Ruhr Univ. Bochum | News | Comments

A new type of catalyst, based on carbon, can facilitate two opposite reactions: electrolysis of water and combustion of hydrogen with oxygen. This bi-functionality, developed by researchers in Germany, is made possible from its construction: manganese-oxide or cobalt-oxide nanoparticles which are embedded in specially modified carbon, then integrated with nitrogen atoms in specific positions.

Silicon sponge improves lithium-ion battery performance

July 8, 2014 10:20 am | News | Comments

Researchers at Pacific Northwest National Laboratory have developed a porous material to replace the graphite traditionally used in a battery's electrodes. Made from silicon, which has more than 10 times the energy storage capacity of graphite, the sponge-like material can help lithium-ion batteries store more energy and run longer on a single charge.

Solar panels light the way from carbon dioxide to fuel

July 2, 2014 9:40 am | by Tien Nguyen, Princeton Univ. | News | Comments

Researchers at Princeton Univ. joined with experts at Liquid Light Inc. to devise an efficient method for harnessing sunlight to convert carbon dioxide into a potential alternative fuel known as formic acid. This type of acid is already being explored as an alternative in fuel cells. The new process takes place inside an electrochemical cell, which consists of metal plates the size of lunch-boxes that enclose liquid-carrying channels.

NIST test house exceeds goal; ends year with energy to spare

July 2, 2014 9:34 am | News | Comments

Despite five months of below-average temperatures and twice the normal amount of snowfall, NIST's Net-Zero Energy Residential Test Facility (NZERTF) in Washington, D.C. ended its one-year test run with 491 KW-h of extra energy. Instead of paying almost $4,400 for electricity, the experimental all-electric house actually earned a credit by exporting surplus energy to the local utility.

Scientists discover how plastic solar panels work

July 1, 2014 11:52 am | News | Comments

Experts don't fully understand how “plastic” solar panels work, which complicates the improvement of their cost efficiency and hinders wider use of the technology. However, an international team has now determined how light beams excite the chemicals in solar panels, enabling them to produce charge. Their findings were made possible with the use of femtosecond Raman spectroscopy.

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More pores for more power

June 30, 2014 2:10 pm | News | Comments

Researchers in Germany have produced a new material the size of a sugar cube that has a surface area equivalent to more than seven tennis courts. This novel type of nanofiber has a highly ordered and porous structure gives it an extraordinarily high surface-to-volume ratio and could be a key enabling technology for lithium-sulfur batteries.

ARPA-E award recipient advancing solid oxide fuel cells

June 30, 2014 9:27 am | News | Comments

SiEnergy Systems, an Allied Minds company commercializing low temperature thin film solid oxide fuel cell (SOFC) technology from Harvard University, has announced that it has been selected for $2.65 million in funding from Advanced Research Projects Agency-Energy (ARPA-E). SiEnergy has develop innovative and unique hybrid electrochemical system that performs as both fuel cell and battery.

Water-cleanup catalysts tackle biomass upgrading

June 26, 2014 12:33 pm | by Mike Williams, Rice Univ. | News | Comments

Rice Univ. chemical engineer Michael Wong has spent a decade amassing evidence that palladium-gold nanoparticles are excellent catalysts for cleaning polluted water, but even he was surprised at how well the particles converted biodiesel waste into valuable chemicals.

A win-win-win solution: Biofuel, climate and biodiversity

June 25, 2014 10:44 pm | News | Comments

Fossil fuel emissions release billions of tons of carbon into the atmosphere each year. In Brazil, the demand for alternative energy sources has led to an increase in biofuel crops. New research demonstrates the high carbon costs of converting intact Brazilian savanna compared to the carbon gains obtained from converting underutilized pastureland for biofuel crops.

Researchers develop smart gating nanochannels for confined water

June 25, 2014 11:14 am | News | Comments

Confined water exists widely and plays important roles in natural environments, particularly inside biological nanochannels. After several years of work, scientists in China have developed a series of biomimetic nanochannels that can serve as the base for confined transportation of water. The technology suggests a potential use in energy conversion systems.

A new resource for advanced biofuels research

June 25, 2014 8:21 am | by Lynn Yarris, Lawrence Berkeley National Laboratory | News | Comments

Researchers at the Joint BioEnergy Institute (JBEI) have unveiled the first glycosyltransferase clone collection specifically targeted for the study of the biosynthesis of plant cell walls. The idea behind “the JBEI GT Collection” is to provide a functional genomic resource for researchers seeking to extract the sugars in plant biomass and synthesize them into clean, green and renewable transportation fuels.

Study shows greater potential for solar power

June 23, 2014 9:43 am | News | Comments

Concentrating solar power (CSP) could supply a large fraction of the power supply in a decarbonized energy system, according to a new study of the technology and its potential practical application. For this research, scientists simulated the construction and operation of CSP systems in four regions around the world, taking into account weather variations, plant locations, electricity demand, and costs.

Discovery Park center awarded grant to advance energy economy

June 23, 2014 7:47 am | by Phillip Fiorini, Purdue Univ. | News | Comments

A research center at Purdue Univ.'s Discovery Park has been awarded a $12 million, four-year grant as part of a $100 million U.S. Dept. of Energy initiative to accelerate scientific breakthroughs needed to build the 21st century energy economy. The Purdue-led C3Bio will use the additional funding to advance methods for converting plant lignocellulosic biomass to biofuels and other bio-based products.

One step to solar cell efficiency

June 19, 2014 12:42 pm | by Mike Williams, Rice Univ. | News | Comments

Rice Univ. scientists have created a one-step process for producing highly efficient materials that let the maximum amount of sunlight reach a solar cell. The Rice laboratory of chemist Andrew Barron found a simple way to etch nanoscale spikes into silicon that allows more than 99% of sunlight to reach the cells’ active elements, where it can be turned into electricity.

Nanoengineering boosts carrier multiplication in quantum dots

June 19, 2014 8:51 am | by Nancy Ambrosiano, Los Alamos National Laboratory | News | Comments

Los Alamos National Laboratory researchers have demonstrated an almost four-fold boost of the carrier multiplication yield with nanoengineered quantum dots. Carrier multiplication is when a single photon can excite multiple electrons. Quantum dots are novel nanostructures that can become the basis of the next generation of solar cells, capable of squeezing additional electricity out of the extra energy of blue and ultraviolet photons.

Collecting light with artificial moth eyes

June 18, 2014 4:00 pm | News | Comments

Researchers the world over are investigating solar cells which imitate plant photosynthesis, with the goal of using sunlight and water to create synthetic fuels such as hydrogen. Scientists in Switzerland have developed this type of photoelectrochemical cell, but this one recreates a moth’s eye to drastically increase its light collecting efficiency. The cell is made of cheap raw materials: iron and tungsten oxide.

Researchers develop fuel cells for increased airplane efficiency

June 16, 2014 1:52 pm | by Tina Hilding, College of Engineering and Architecture | News | Comments

Washington State Univ. researchers have developed the first fuel cell that can directly convert fuels, such as jet fuel or gasoline, to electricity, providing a dramatically more energy-efficient way to create electric power for planes or cars. About 10 years ago, the researchers began developing a solid-oxide fuel cell to provide electrical power on commercial airplanes.

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