BREAKTHROUGH
Carbon nanotubes for detection
Stanford scientists have developed a chip consisting of carbon nanotubes that detects low levels of trinitrotoluene (TNT) and sarin in water. The plastic substrate chip is flexible, cheap, and operates efficiently under water. See AtoZ Nano, Nanowerk, and ACS Nano.
NEWSWORTHY
Brain implants
Scientists at University of Michigan have observed that brain implants in rats are more efficient when coated with nanotubes made up of poly(3,4-ethylenedioxythiophene) (PEDOT). The coated implants have shown an improvement of 30 percent in high-quality unit activity as compared to uncoated implants. See AtoZ Nano, Nanotech Wire, Nanowerk, and Journal of Advanced Materials.
Artificial pore
Biomedical researchers from the University of Cincinnati have developed an artificial pore that when inserted into a lipid membrane allows single and double stranded DNA to pass through it. This modified core of a nanomotor could find applications in drug loading, gene delivery, nano sensing and DNA sequencing. See AtoZ Nano, Nanowerk, and Nature Nanotechnology.
Nanosensors to measure insulin level
Iranian researchers have developed nanosenors that can detect insulin levels for diabetic patients. To produce nanosensors, the researchers used silicon carbide nanoparticles in ethanol on glass carbon electrodes. They were left to evaporate and were stabilized on the electrode to form detectors. See Nanowerk.
Quantum dots to treat skin cancer
Researchers from the US and Canada are collaborating to develop quantum dots as photsensitizers to treat skin cancer. Photosensitizers combining with light, as in photodynamic therapy can produce oxygen species that are harmful to cancer cells. See Nanoscale and Nanowerk.
HONORABLE MENTIONS
Nanotechnology for space environment
Researchers at Georgia Institute of Technology are conducting experiments to develop shielding devices to protect microelectronics and other integrated circuits used in spacecrafts and satellites from harmful space radiations. The researchers note that an alloy of Silicon and Germanium at the nanoscale could act as a shielding agent. Investigations are on to figure ways of improving the combination so this alloy can shield most radiations. See AtoZNano.
Quantum dot directed assembly gains momentum
Directed assembly is a process of controlling quantum dots through manipulation of atoms in quantum dots to control their properties and behavior. But lack of information regarding their atomic –scale, chemical, and structural properties was slowing this process down. But, researchers from University of Michigan have created atomic scale maps of these quantum dots to regain the lost pace of directed assembly. See AtoZNano and Nanowerk.
Controlled movement in the nanoworld
Scientists in the UK are making efforts to control directed movement of molecules of nanoparticles. They developed a surface containing both hydrophobic and hydrophilic sections producing an energy gradient, where particles move in a directed pattern. See AtoZNano, Nanowerk, and ACS Nano.
Nanochip for cancer detection
Early detection of the type and severity of cancer is now possible thanks to researchers from the University of Toronto. They have developed a microchip made from nanomaterials that is sensitive enough to do so within 30 minutes. See Nanowerk and Nanotech Wire.