The comprehensive overview of the synthesis of nanoscale high-entropy alloys and the advantages over conventional alloys. The comprehensive overview of the multi-field applications of nanoscale ...

Antimicrobial resistance and increasing healthcare costs have inspired researchers to create innovative and effective antimicrobial therapies. Much focus has been placed upon 'nanoparticle-based ...

The field of electrochemical energy storage and conversion is pivotal as the world transitions toward carbon neutrality and sustainable energy solutions.

Moving far beyond the capabilities of traditional oligonucleotide synthesis, the advent of advanced synthesis technologies is enabling genetic constructs to be made more rapidly, accurately, ...

Graphene has a wide range of applications, but due to its zero-band gap property, low dispersibility in water and low spectral absorption, it cannot be used in many areas, including optoelectronics, ...

Biomedical polymers have been extensively developed for promising applications in a lot of biomedical fields, such as drug delivery, disease detection/diagnosis, biosensing, regenerative medicine, and ...

Nanorods are elongated nanostructures with a diameter in the nanometer range and an aspect ratio (length-to-width ratio) greater than one. They are typically characterized by their unique optical, ...

What are Metal Oxide Nanoparticles? Metal oxide nanoparticles are a class of nanomaterials composed of metal cations bonded to oxygen anions, with particle sizes ranging from 1 to 100 nanometers.

At a fundamental level, the goal of any frequency synthesizer is, based on a given reference frequency, to generate a desired output frequency. They do so, usually, by dividing down the reference ...