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Topic Name: Nanonets-To Convert Solar Energy Into Hydrogen
Category: Nanobiotechnology
Research persons: Dunwei Wang
Location: Boston, United States
Details
One problem with solar cells is that they only produce
electricity during the day. A promising way to use the sun's energy more
efficiently is to enlist it to split water into hydrogen gas that can be stored
and then employed at any time, day or night. A cheap new nanostructured material
could prove an efficient catalyst for performing this reaction. Called a nanonet
because of its two-dimensional branching structure, the material is made up of a
compound that has been demonstrated to enable the water-splitting reaction.
Because of its high surface area, the nanonet enhances this reaction.
Researchers led by Dunwei Wang, a chemist at Boston College,
grew the nanonets, creating structures made up of branching wires of titanium
and silicon. Last year, researchers at the Max Planck Institute, in Germany,
showed that titanium disilicide, which absorbs a broad spectrum of visible
light, splits water into hydrogen and oxygen--and can store the hydrogen, which
it absorbs or releases depending on the temperature. Other semiconducting
materials have been tested as water-splitting catalysts but have proved
unstable.
Wang set out to increase the surface area of titanium
disilicide in the hope of improving its performance: "More contact means higher
efficiency," he explains. Wang says that the nanonets are one of the most
structurally complex, two-dimensional nanomaterials yet made. "When I want to
make something small, I have to restrain the growth," he says. Making long, thin
structures like nanowires and nanotubes requires limiting growth in all but one
dimension. Limiting growth in one dimension while promoting the growth of
complex structures in the other two dimensions is more challenging, says Wang.
But under the right conditions, he found, it happens spontaneously.
The nanonets, made up of flexible wires about 15 nanometers
thick, grow spontaneously from titanium and silicon flowing through a reaction
chamber at high temperatures. In a paper in the journal Angewandte Chemie,
Wang's group describes the synthesis of nanonets. The material is 10 times more
electrically conductive than its bulk form. Conductivity is an important
property for water-splitting catalysts. Wang says that he has tested the
nanonets' water-splitting properties, although this work has not yet been
published. In preliminary tests, the nanostructured version of the material
performs about 100 times better than bulk titanium disilicide.
However, says Peidong Yang, a chemist at the University of
California, Berkeley, the method Wang has used to fabricate the nanonets may
limit their usefulness. When researchers first began trying to make complex,
two-dimensional nanostructures, says Yang, the main application they had in mind
was electronics. Although the bulk version of the material is commonly used to
form electrical contacts on microprocessors, Wang's nanostructured material will
not be, predicts Yang. For electronics applications, being able to rationally
design the material's structure is important, he says. "You want to make a
branch here, not there," says Yang. So although their planar structure would be
compatible with flat devices, the nanonets are unlikely to be found on future
microprocessors.
Yang agrees, however, that Wang's nanonets have good surface
area and conductivity and "might be useful as an electrode for water splitting."
However, nanonets will be entering a crowded field, with many researchers and
companies developing such technologies.
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