As fast as modern electronics have become, they could be much faster if their operations were based on light, rather than ...

Carbon nanotubes have recently received extensive ... these nanomaterials can be produced that are monodisperse in their structure and properties. To address the problem of heterogeneity and ...

Beyond being a supportive structure, the catalyst decomposes hydrocarbon molecules into carbon atoms that form the carbon nanotubes and facilitates the insertion of carbon atoms into the growing ...

One of this mean of communication is 'tunneling nanotubes' or TNTs. Researchers have discovered that the structure of these nanotubes challenged the very concept of cell. Cells in our bodies have ...

Production of sufficient nanotubes for four or five NMR experiments can be completed in 1 week by a single individual. The classical paradigm for protein structure determination by solution-state ...

Researchers have demonstrated that by using a semiconductor with flexible bonds, the material can be moulded into various ...

Unveiling their molecular structure and mechanism of peptide self-assembly is crucial in understanding the precise molecular routes for medical conditions associated with protein misfolding such as ...

The RNA microtubes, which are just a few microns in length, form a network that resembles a natural cell structure. Brownian motion of RNA origami nanotubes inside GUVs. These confocal time-lapses ...

2b). It was at this stage that the structure of the nanotubes changed. With further stretching, more and more Stone-Wales defects began to form, eventually leading to a change in the nanotubes ...

Nanotubes are more commonly associated with fuel-cell research ... The physical change alters the material’s chemical structure and determines how it behaves. The result is “one of the most heat ...