By fusing wet and dry nanotechnologies, researchers at Rensselaer Polytechnic Institute have found a way to control the flow of water through carbon nanotube membranes with an unprecedented level of precision.
The research, which will be described in the March 14, 2007 issue of the journal Nano Letters, could inspire technologies designed to transform salt water into pure drinking water almost instantly, or to immediately separate a specific strand of DNA from the biological jumble.
Nanotube membranes have fascinated researchers with their combination of high flow rates and high selectivity, allowing them to filter out very small impurities and other organic materials like DNA and proteins from materials with high water content. The problem is that nanotube arrays are hydrophobic, strongly repelling water.
“We have, at a very fundamental level, discovered that there is a new mechanism to control water transport,” said Nikhil Koratkar, associate professor of mechanical engineering at Rensselaer and lead author of the paper. “This is the first time that electrochemical means can be used to control the way that the water interacts with the surface of the nanotube.”
A group of Rensselaer researchers led by Koratkar has found a way to use low-voltage electricity to manipulate the flow of water through nanotubes. Control of water’s movement through a nanotube with this level of precision has never been demonstrated before.
“In this century one of the big challenges is how to get clean drinking water,” Koratkar said. “If you can remove salt from water you can solve this problem. Nature does this all the time. The first step to getting to this process is to control the flow of water through nanochannels, which we have now successfully demonstrated. This is the starting part of the research. The next step would be to capture specific proteins, DNA, or impurities within the water with specifically designed nanotubes.”
The researchers discovered that when the nanotube’s membrane is given a small positive potential of only 1.7 volts, and the water is given a negative potential, the nanotubes quickly switch...
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