News & Comment

Quantum ‘back-action’ has been used to lower the temperature of a vibrating nanobeam

The 'molecular fingerprinting' technique known as SERS has now been applied to living samples for the first time

Multiwalled carbon nanotubes can stimulate the growth of a single-celled organism when cultured in yeast medium

A single molecule fixed to the wall of a nanopore can be switched between two states using light

The efficiency of amorphous-silicon solar cells can be improved by adding a layer of gold nanoparticles

A synthetic nanoparticle crystal can be used as a filter for hypersonic vibrational frequencies

The outer edges of a branched molecule can be zipped together to form a nanoparticle with a conjugated polymer coating

Neuronal electronic signal transfer is controlled and measured using silicon nanowire device arrays

Measuring the strength of silicon nanobeams indicates the importance of surface roughness in determining failure due to fracture

Gold nanodisk arrays demonstrate surface-enhanced Raman scattering intensities that depend on disk thickness and gap size

Shining light on carbon nanotube FETs coated with photoactive porphyrin molecules changes their conductance properties

‘Self-catalytic’ metal–organic chemical vapour deposition brings high-quality indium nitride nanoflowers into bloom

A nanotube resonator is capable of detecting mass with exquisite resolution

The formation of a porous molecular honeycomb film is controlled by a delicate balance of forces

Putting carbon nanotubes under stress at high temperatures reveals that deformation occurs through the motion of kinks

Pore size and film thickness of nanoporous polymeric materials can be effectively controlled for better anti-reflective properties

The conductance of a molecule containing two rings of carbon atoms changes when one ring is twisted relative to the other

A pair of edge-sharing pentagons in a filled fullerene cage proves that rules are made to be broken

The in-situ formation of iron nanoparticles in carbon produces highly adsorbent materials that are easily manipulated with magnets

Aligned multiwalled carbon nanotube yarns can be used to make high-current density field emitters