DNA is probably the most programmable biomaterial for creating a wide range of rationally designed and functionally enhanced nanostructures. The sophisticated, programmable, and addressable DNA nanostructures are strong candidates for constructing nanoelectronic devices. The size of DNA molecules is also key: DNA double-helix has a neighboring base pair distance of 0.34 nm and a diameter of 2.1 - 2.6 nm a, and thus DNA complex-based nanoelectronics may break the 5-nm processing limit of commercial silicon-based semiconductors.
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A project for molecular-level research on the transformation, interactions, and impact of various nanomaterials released into the environment.
The nanofluid is made from commercially available sodium using household blender.
Chemists magnify molecular clarity of hydrogen-bond interactions to boost biomimetics.
Synthetic DNA nanovaccines enhance killer T cell immunity resulting in tumor control in preclinical studies.
Researchers have successfully produced graphene masks with an anti-bacterial efficiency of 80%, which can be enhanced to almost 100% with exposure to sunlight for around 10 minutes.
Ultrathin layers of tungsten diselenide have potential applications in opto-electronics and quantum technologies. Researchers have now explored how this material interacts with light in the presence of strong magnetic fields.
A team of physicists has found a way to describe and predict the processes on pyroelectric surfaces.
Electronics that come out of printers make it possible to produce the circuits on all sorts of substrates, such as paper or plastic film - but there are still some hurdles to overcome.
Researchers have created a novel plant-based energy storage device that in the near future could charge devices - even electric cars - within a few minutes. Furthermore, they say their devices are flexible, lightweight and cost-effective.
Scientists propose a new mechanism to explain the resilience of superconductors after temporary exposure to a magnetic field, providing a potential route to lossless electricity transmission.