Related topics: high blood pressure · blood pressure

Converting atmospheric carbon dioxide into batteries

An interdisciplinary team of scientists has worked out a way to make electric vehicles that are not only carbon neutral, but carbon negative, capable of actually reducing the amount of atmospheric carbon dioxide as they operate.

Battery technology could charge up water desalination

The technology that charges batteries for electronic devices could provide fresh water from salty seas, says a new study by University of Illinois engineers. Electricity running through a salt water-filled battery draws the ...

Piecing together the cells elevator-like mechanism for sodium

Sodium, such that is found in ordinary table salt, is constantly transported back and forth our cells membrane in exchange for protons. This regulates sodium levels, cell volume and internal pH. Researchers have now been ...

New cathode material creates possibilities for sodium-ion batteries

Led by the inventor of the lithium-ion battery, a team of researchers in the Cockrell School of Engineering at The University of Texas at Austin has identified a new safe and sustainable cathode material for low-cost sodium-ion ...

Sodium-ion batteries are potential power technology of future

The high cost and scarcity of lithium are driving research to develop alternatives to lithium-ion batteries, especially to meet future needs in energy storage, say researchers from Purdue University in an article about a ...

New high-performance electrode material for sodium full cells

The requirements for batteries used in stationary energy storage are nothing less than long lifecycle, low cost, high safety, high efficiency, and high operating voltage. Replacing lithium with sodium would be an option to ...

Design to improve material properties of sodium-ion batteries

In collaboration with the Institute of Physics at the Chinese Academy of Sciences, ANSTO researchers have manipulated the electrochemical properties of a material that could improve the capacity and life of sodium-ion batteries.

Sodium pump could act as molecular light switch

Scientists from Jülich, Grenoble, Frankfurt and Moscow uncovered the atomic structure of KR2, a light-driven transporter for sodium ions which had only recently been discovered. Based on the structural information the team ...

Technique encapsulates functional hydrophobic organic molecules

Many applications demand the presence of functional organic molecules in environments where they are not stable or even not soluble. A possible way to protect the molecules is encapsulation in materials that provide solubility ...

page 19 from 40