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| Phyto-mining platinum from hyperaccumulator plant Iberis. |
Researchers will investigate about 400 species of plants known as hyperaccumulators, which take larger-than-normal amounts of toxins, including heavy metals from the soil. Plants such as willow, corn and mustard can accumulate relatively large amounts of these metals.
CNAP Professor Neil Bruce stated, “The ability of plants to extract PGMs from soil and redeposit the metal as nano-particles in cells is remarkable. This project will allow us to investigate the mechanisms behind this process and provide a green method for extracting metals from mine tailings that are currently uneconomical to recover.” Source: 'Mining' for metals using Nature's machines (Reliability: High)
Comment: The word phyto-mining was coined in 1977, and was implemented as an environment solution for contaminated sites. This research into phyto-mining as a method of extracting strategic minerals has exciting possibilities. Any method by which strategic and rare earth minerals can be reused and recycled has the potential to provide both ecologic and economic benefits. Additionally, the ability to re-use these phyto-mined byproducts offers alternative sources for PGM.
Professor Neil Bruce, of
CNAP, added: "The ability of plants to extract PGMs from soil and
redeposit the metal as nanoparticles in cells is remarkable. This
project will allow us to investigate the mechanisms behind this process
and provide a green method for extracting metals from mine tailings that
are currently uneconomical to recover."
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
"We are looking at ways of
turning these residual metals into their catalytically active form
using the plants to extract them from the mine waste. The plant is
heated in a controlled way with the result that the metal is embedded in
a nano-form in the carbonised plant.
"The trick is to control the decomposition of the plant in a way which
keeps the metal in its nano-particulate or catalytically active form.
Catalysis is being used more and more in industrial processes and
particularly for emission control because of the demand for cleaners
cars, so 'phyto-mining' could provide a sustainable supply of
catalytically active metals."
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
"We are looking at ways of
turning these residual metals into their catalytically active form
using the plants to extract them from the mine waste. The plant is
heated in a controlled way with the result that the metal is embedded in
a nano-form in the carbonised plant.
"The trick is to control the decomposition of the plant in a way which
keeps the metal in its nano-particulate or catalytically active form.
Catalysis is being used more and more in industrial processes and
particularly for emission control because of the demand for cleaners
cars, so 'phyto-mining' could provide a sustainable supply of
catalytically active metals."
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
with support from Yale University, the University of British Columbia and Massey University in New Zealand.
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
with support from Yale University, the University of British Columbia and Massey University in New Zealand.
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
Read more at: http://phys.org/news/2012-09-metals-nature-machines.html#jCp
