Scientists learn from nature to split water
Date: Sunday, August 17, 2008 @ 13:08:48 UTC Topic: Science
An international team of researchers led by Monash University has used
chemicals found in plants to replicate a key process in photosynthesis
paving the way to a new approach that uses sunlight to split water into
hydrogen and oxygen.
The breakthrough could
revolutionise the renewable energy industry by making hydrogen – touted
as the clean, green fuel of the future – cheaper and easier to produce
on a commercial scale.
Professor Leone Spiccia, Mr Robin Brimblecombe and Dr Annette Koo
from Monash University teamed with Dr Gerhard Swiegers at the CSIRO and
Professor Charles Dismukes at Princeton University to develop a system
comprising a coating that can be impregnated with a form of manganese,
a chemical essential to sustaining photosynthesis in plant life.
"We have copied nature, taking the elements and mechanisms found in
plant life that have evolved over 3 billion years and recreated one of
those processes in the laboratory," Professor Spiccia said.
"A manganese cluster is central to a plant's ability to use water,
carbon dioxide and sunlight to make carbohydrates and oxygen. Man-made
mimics of this cluster were developed by Professor Charles Dismukes
some time ago, and we've taken it a step further, harnessing the
ability of these molecules to convert water into its component
elements, oxygen and hydrogen," Professor Spiccia said.
"The breakthrough came when we coated a proton conductor, called
Nafion, onto an anode to form a polymer membrane just a few micrometres
thick, which acts as a host for the manganese clusters."
"Normally insoluble in water, when we bound the catalyst within the
pores of the Nafion membrane, it was stabilised against decomposition
and, importantly, water could reach the catalyst where it was oxidised
on exposure to light."
This process of "oxidizing"
water generates protons and electrons, which can be converted into
hydrogen gas instead of carbohydrates as in plants.
"Whilst man has been able to split water into hydrogen and oxygen
for years, we have been able to do the same thing for the first time
using just sunlight, an electrical potential of 1.2 volts and the very
chemical that nature has selected for this purpose," Professor Spiccia
said
Testing revealed the catalyst assembly was still active after three
days of continuous use, producing oxygen and hydrogen gas in the
presence of water, an electrical potential and visible light.
Professor Spiccia said the efficiency of the system needed to be
improved, but this breakthrough had huge potential. "We need to
continue to learn from nature so that we can better master this
process."
"Hydrogen has long been considered the ideal clean green fuel,
energy-rich and carbon-neutral. The production of hydrogen using
nothing but water and sunlight offers the possibility of an abundant,
renewable, green source of energy for the future for communities across
the world."
The research is published this month in the scientific journal Angewandte Chemie, International Edition.
Source: Monash University Via: http://www.physorg.com/news138179858.html
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