Home > News > Virus Battery
September 28th, 2005
Virus Battery
Abstract:
Copying how red abalone build their shells, Belcher and her team are developing a way to actually "grow" rechargeable batteries with the help of viruses — tiny microbes that multiply by infecting living cells. Their technique would take a matter of weeks, rather than the 15 years the red abalone needs to assemble a full-sized shell. (with video)
Source:
sciencentral.com
Bookmark:
Possible Futures
Lifeboat publishes its first book: The Lifeboat Foundation has published its first book, "The Human Race to the Future: What Could Happen -- and What to Do" May 14th, 2013
UC Santa Barbara History Professor's Book Elucidates, Celebrates ‘Visioneers' May 14th, 2013
Conceptual Nanomedical Lipofuscin Removal Strategy April 29th, 2013
The Global Desalination Market 2013-2023 April 24th, 2013
Self Assembly
Beautiful "flowers" self-assemble in a beaker: Elaborate nanostructures blossom from a chemical reaction perfected at Harvard May 17th, 2013
DNA-Guided Assembly Yields Novel Ribbon-Like Nanostructures: Approach could be useful in fabricating new kinds of materials with engineered properties May 16th, 2013
Production of Sensitive Hydrogen Peroxide Biosensor Using Silver Nanoparticles April 26th, 2013
Scientists see nanoparticles form larger structures in real time April 22nd, 2013
Materials
Advancements and developments of solid-state nanopores sensors May 16th, 2013
Physicists discover a new kind of friction: Friction in the nano-world May 16th, 2013
Squishy hydrogels may be the ticket for studying biological effects of nanoparticles May 15th, 2013
Pitt Chemists Demonstrate Nanoscale Alloys So Bright They Could Have Potential Medical Applications: “Think about a particle that will not only help researchers detect cancer sooner but be used to treat the tumor, too.” May 15th, 2013
Energy
Artificial Forest for Solar Water-Splitting: Berkeley Lab Researchers Report First Fully Integrated Artificial Photosynthesis Nanosystem May 17th, 2013
Moth-Inspired Nanostructures Take the Color Out of Thin Films May 17th, 2013
Solar panels as inexpensive as paint? It’s possible due to research at UB, elsewhere May 13th, 2013
Flawed Diamonds Promise Sensory Perfection: Berkeley Lab researchers and their colleagues extend electron spin in diamond for incredibly tiny magnetic detectors May 10th, 2013