Wearable electronics, from health and fitness trackers to virtual reality headsets, are part of our everyday lives. But finding ways to continuously power these devices is a challenge.
The U.S. Department of Defense’s (DOD) Defense Advanced Research Projects Agency (DARPA) recently awarded a team, led by University of Hawaii (UH), a $25M contract for the development of a revolutionary artificial reef technology.
With lithium prices over five times higher than they were a year ago, researchers from Skoltech and Lomonosov Moscow State University have developed a material for sodium-ion batteries, which offer an alternative to the increasingly expensive lithium-ion tech.
Scientists in the US and China have collaborated on a new paper investigating the use of polyaniline as a material for improved perovskite solar cells. The findings of their research have been published online in ACS Applied Energy Materials.
The use of different energy sources, especially solar, strengthens the nation’s energy system. According to the US Energy Information Administration, solar energy accounts for around 3% of total power generation in the United States and about 9% in Arizona.
At the Department of Energy’s Oak Ridge National Laboratory (ORNL), scientists are handling a global water challenge with a special material that has been specifically developed to aim at not just one, but two deadly and heavy metal pollutants for concurrent removal.
Writing in the journal Energies, scientists from the University of Kansas in the USA have investigated fuel injection strategies for improved compression ignition engines.
In a review recently published in the journal ACS Applied Energy Materials, researchers discussed the quasi-2D carrier transport for thermoelectric performance in KMgBi.
In recent times, the majority of the energy storage systems (ESSs) have accepted lithium-ion batteries (LIBs), with the greatest technology maturity among the secondary batteries.
The results of a collaborative study conducted by the Chemnitz University of Technology and several collaborator universities have shown how slow electrons tend to decrease the efficacy of new organic solar cells.
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