Buildings made of porous rock can weather over the years. Now, for the first time, scientists at TU Wien (Vienna) have studied in detail how silicate nanoparticles can help save them.
Data centers -; dedicated spaces for storing, processing and disseminating data -; enable everything from cloud computing to video streaming. In the process, they consume a large amount of energy transferring data back and forth inside the center. With demand for data growing exponentially, there is increasing pressure for data centers to become more energy efficient.
Available exclusively from Goodfellow, NanoRegMed's innovative graphene-based nanocomposite films, Hastalex® and BioHastalex®, are set to solve some of the most important demands in modern medicine, including tissue engineering, skin and nerve regeneration, and cardiac patches.
As our devices get smaller and smaller, the use of molecules as the main components in electronic circuitry is becoming ever more critical. Over the past 10 years, researchers have been trying to use single molecules as conducting wires because of their small scale, distinct electronic characteristics, and high tunability.
A successful capital increase significantly strengthens the innovation management and business development of 2PP 3D-printing specialist UpNano GmbH (Vienna, Austria).
RUDN professor suggested the way to create porous silicon nanostructures strictly on a given region.
Humanity's dependence on batteries for cellular phones, laptops, electric vehicles, and grid storage is fueling a demand for better battery technology.
In a paper published in the ACS Applied Energy Materials journal, researchers produced novel Au/K4-xHxNb6O17 nanocomposites by a single-step preparation in an aqueous medium surrounded by Au poly(ethyleneimine) (Au-PEI). The Au-PEI nanoparticles were immobilized by exploiting the intercalation chemistry of K4-xHxNb6O17 nanosheets. The nanocomposites prepared were successfully applied in photoinduced H2 evolution.
Wearable technology has exploded in recent years. Spurred by advances in flexible sensors, transistors, energy storage, and harvesting devices, wearables encompass miniaturized electronic devices worn directly on the human skin for sensing a range of biophysical and biochemical signals or, as with smart watches, for providing convenient human-machine interfaces.
The migration of carbon atoms on the surface of the nanomaterial graphene was recently measured for the first time. Although the atoms move too swiftly to be directly observed with an electron microscope, their effect on the stability of the material can now be determined indirectly while the material is heated on a microscopic hot plate. The study by researchers at the Faculty of Physics of the University of Vienna was published in the journal Carbon.
Terms
While we only use edited and approved content for Azthena
answers, it may on occasions provide incorrect responses.
Please confirm any data provided with the related suppliers or
authors. We do not provide medical advice, if you search for
medical information you must always consult a medical
professional before acting on any information provided.
Your questions, but not your email details will be shared with
OpenAI and retained for 30 days in accordance with their
privacy principles.
Please do not ask questions that use sensitive or confidential
information.
Read the full Terms & Conditions.