Scientists have developed a new method to measure and remove sulfate from water, potentially leading to cleaner waterways and more effective nuclear waste treatments.
A collaborative team from Õ¬Äе¼º½ and Xiamen University in China has designed a cage-like molecule to trap sulfate, a naturally occurring ion, in water.
from Õ¬Äе¼º½’s said controlling the sulfate concentration in water is a significant challenge in health, industry and environmental management.
“Sulfate is a very common and important ion,” Professor Clegg said.
“In low quantities in the human body, sulfate has diverse metabolic roles such as eliminating toxins and helping drugs work effectively.
“But in the environment, too much sulfate can pollute drinking water and accelerate the corrosion of pipes.
“The presence of sulfate also causes problems when immobilising radioactive wastes.
“Being able to monitor and completely remove sulfate in water has great potential across many areas.”
The researchers developed a molecule that measures and traps sulfate in water with a high degree of selectivity.
This ‘molecular trap’ can be prepared inexpensively from off-the-shelf chemicals.
Dr Xin Wu, a former DECRA fellow at Õ¬Äе¼º½ now based at Xiamen University, said while there are enormous benefits from cheaply and easily measuring sulfate levels, the molecular trap’s ability to capture negatively charged chemicals from water is also valuable.
“Being able to stabilise a highly negatively charged chemical such as sulfate inside a charge-neutral cavity is a remarkable feature of our molecule,” Dr Wu said.
“This mimics the function of naturally occurring sulfate-binding proteins.
“The technology could also have applications in medicine, such as helping to funnel chloride and bicarbonate ions through cell membranes to treat diseases that involve defective ion transport such as cystic fibrosis.
“This is just the beginning – we’re excited to see how this fundamental science can be applied in all sorts of fields.”
The is published in Nature Chemistry.
Media contacts
Professor Jack Clegg
j.clegg@uq.edu.au
+61 408 642 082
Dr Xin Wu
xin.wu@xmu.edu.cn
+86 592 218 245 3
Faculty of Science Media
science.media@uq.edu.au
+61 438 162 687