Nanotechnology is the ability to measure, see, manipulate and manufacture things usually between 1 and 100 nanometers. A nanometer is one billionth of a meter; a human hair is roughly 100,000 nanometers wide. In 2007, nanotechnology was incorporated into more than $88 billion in manufactured goods. Lux Research projects that figure will grow to $2.6 trillion by 2014, or about 15% of total global output.

An expert analysis in Nature Nanotechnology questions whether industry, government and scientists are successfully applying lessons learned from past technologies to ensure the safe and responsible development of emerging nanotechnologies.

Scientists at the U.S. Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California at Berkeley have performed the first scanning tunneling spectroscopy of graphene flakes equipped with a "gate" electrode. The result is the latest in a series of surprising insights into the electronic behavior of this unique, two-dimensional crystal form of carbon: an unexpected gap-like feature in the energy spectrum of electrons tunneling into graphene's single layer of atoms.

Scientists say they have found a workable way of reducing CO2 levels in the atmosphere by adding lime to seawater. And they think it has the potential to dramatically reverse CO2 accumulation in the atmosphere, reports Cath O’Driscoll in SCI’s Chemistry & Industry magazine published today.

Shell is so impressed with the new approach that it is funding an investigation into its economic feasibility. ‘We think it’s a promising idea,’ says Shell’s Gilles Bertherin, a coordinator on the project. ‘There are potentially huge environmental benefits from addressing climate change – and adding calcium hydroxide to seawater will also mitigate the effects of ocean acidification, so it should have a positive impact on the marine environment.’

Adding lime to seawater increases alkalinity, boosting seawater’s ability to absorb CO2 from air and reducing the tendency to release it back again.

A new technology that spots tooth decay almost as soon as it’s begun promises to reduce the need for drilling and filling, writes Patrick Walter in SCI’s Chemistry & Industry (C&I) magazine.

Drilling is one of the top dental phobias and puts thousands of people off visiting their dentist every year.

The new technology, which may be available in dental surgeries in five years from now, is based on Raman spectroscopy most commonly used to distinguish between different chemicals by identifying each molecule’s unique fingerprint. It detects decay simply and painlessly by pointing a tiny optical fibre at the tooth to check on its health.

The white horse has been an icon for dignity, purity and good guys across various human cultures all over the world but only now has an international team been able to identify the mutation that causes this fascinating trait.

Their analysis shows that white horses carry an identical mutation that can be traced back to a common ancestor that lived thousands of years ago. The study is interesting for medical research since this mutation also enhance the risk for melanoma.

The great majority of white horses carry the dominant mutation 'Greying with age.' A Grey horse is born colored (black, brown or chestnut) but the greying process starts already during its first year and they are normally completely white by six to eight years of age, though the skin remains pigmented. Thus, the process resembles greying in humans but the process is ultrafast in these horses. The research presented now demonstrates that all Grey horses carry exactly the same mutation which must have been inherited from a common ancestor that lived thousands of years ago.

Logic says that just as air and water preceded life, so must the 'niche', the hospitable environment that shelters adult stem cells in tissue and provides factors necessary to keep them young and vital, must have emerged before its stem cell dependents.

A team of scientists at the Salk Institute for Biological Studies led by Leanne Jones, Ph.D., assistant professor in the Laboratory of Genetics, now suggests that this is not always the case. They report in the July 20 advance online edition of Nature that the cells that comprise a specialized niche in the testis of fruit flies actually emerge from adult stem cells, a finding with implications for regenerative medicine, aging research, and cancer therapeutics.