The exceedingly small scale at which nanoengineering and nanofabrication take place is one of the most interesting elements of nanotechnology. Nanotechnology engineering procedures and tools that allow the manipulation of individual atoms and molecules - has emerged as a result of a better knowledge of this field. Nanotechnology allows humans to tinker with the universe's building elements, using quantum physics to manufacture materials with incredible precision - literally molecule by molecule. Nanotechnology advances are intricately linked to other technologies, many of which have received considerably greater attention. Other technologies, such as gene editing, additive manufacturing (3-D printing), artificial intelligence, spacecraft, and quantum computing, will benefit from nanotechnology.
Title : Multicomponent high-entropy cantor alloys
Brian Cantor, University of Oxford, United Kingdom
Title : Biomaterials based on carbon nanotubes and glyconanoparticles for energy conversion and electroanalysis
Serge Cosnier, CNRS and Grenoble Alpes university, France
Title : Recent advances application of molecular dynamic simulation for studying the influence of droplet size and surface potential on the contact angle: A review
Saleh Irsheid Saleh Alhiassah, University of Science, Malaysia
Title : Metal quantum-dots in glasses for nanophotonics
Purushottam Chakraborty, Saha Institute of Nuclear Physics, India
Title : 13 years of managing the safety of nanomaterials in research laboratories
Thierry Meyer, EPFL, Switzerland
Title : Structure, magnetic and transport properties of nano-crystalline thin films of NiCoCrFePd high entropy alloy
Abid Hussain, Inter University Accelerator Center, India