A novel method for assembling small nanoparticles in a three-phase catalytic process to enable enhanced surface-enhanced Raman scattering (SERS) sensing was recently proposed by a research team headed by Prof. Yang Liangbao from the Hefei Institutes of Physical Science (HFIPS) of the Chinese Academy of Sciences (CAS).
Water has enormous potential as an energy source. For instance, hydroelectric power facilities have been extensively investigated as a means of harnessing the kinetic energy of water; nevertheless, the environment in the area is significantly altered by this technology.
Although ammonia (NH3) is seen to be a viable carbon-free energy source, experts throughout the world are still puzzled by its energy-intensive manufacturing method.
Two-dimensional materials only a few atoms thick can have amazing features, such as the capacity to conduct electric charge exceptionally effectively, which could improve the performance of next-generation electronic devices.
A group of scientists examined a novel way of altering the architectures of ultra-small nanomaterials.
Researchers at the University of Manchester have accomplished a significant advancement in the transfer of two-dimensional crystals.
The emergence of multi-drug resistance bacteria and healthcare-associated infections are frequent issues in the treatment of suppurating wounds. A group of researchers has created a bactericidal nanomaterial that can be used against either Gram-positive or Gram-negative bacteria.
A multinational research team at the University of Vienna under the direction of quantum physicist Markus Arndt has made significant progress in the identification of protein ions: At low energies, superconducting nanowire detectors outperform conventional ion detectors in terms of detection efficiency by a ratio of up to 1,000 due to their high energy sensitivity, which allows for about 100% quantum efficiency.
Efforts are being made to offer a foundation of nanoscience information in a way that is accessible so that education providers can raise awareness of nanotech developments and innovations.
A new study details a breakthrough in understanding the dynamics of halide perovskites, revealing insights crucial for advancing optoelectronics technologies.
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