Unquestionably, a SWNT forms spontaneously because its structure represents a low-energy configuration, and hence one favoured by nature, for a given number of carbon atoms 7. However there is no ...

Explore how nanosensors are transforming cancer diagnostics by enabling earlier, more accurate, and less invasive detection ...

Raman spectroscopy is a technique that examines how light interacts with molecules. When light interacts with vibrating molecules, most of it bounces unchanged – this is called a Rayleigh ...

was fabricated using tiny carbon-based cylindrical structures known as carbon nanotubes. "Flexible and stretchable sensors have garnered significant attention in the fields of human–computer ...

A recent study published in Advanced Electronic Materials introduces a self-aligned gate architecture for carbon nanotube ...

carbon nanotubes and flake graphite, and metal oxide nanoparticles including iron, aluminum, and manganese oxides,” said paper co-author John Hegarty, a Northwestern materials science and engineering ...

Department of Chemistry, The University of Texas at Austin, Austin, Texas 78712, United States McKetta Department of Chemical Engineering, The University of Texas at Austin, Austin, Texas 78712, ...

We use PEDOT molecules and carbon nanotubes, rather than AuNPs, to enhance the DC conductivity of the thin films. There is a significant difference between AuNPs and PEDOT or CNTs: AuNPs are metallic, ...

carbon nanotubes and flake graphite, and metal oxide nanoparticles including iron, aluminum and manganese oxides," said Northwestern materials science and engineering Ph.D. candidate John Hegarty, a ...

carbon nanotubes and flake graphite, and metal oxide nanoparticles including iron, aluminum, and manganese oxides,” said Northwestern materials science and engineering Ph.D. candidate John Hegarty, a ...