It’s a fascinating time in the world of water purification, and as we gain more insights, we’re sure to see even more innovative solutions. This new understanding may even inspire the use of alternative materials for membranes, leading to greater efficiency in screening out harmful substances. It might also inspire the design of membranes capable of capturing hazardous “forever chemicals” like PFAS, a major concern in drinking water.Īlthough this research is still in the early stages, it promises a future where membranes are as adaptable and customizable as clothing, selected based on the user’s specific needs. It could lead to creation of membranes tailored to filter out specific contaminants, such as boron and chlorides, which can harm crops irrigated with wastewater. This breakthrough has exciting implications for municipal water systems and the expansion of desalination. Understanding this friction could pave the way for designing more efficient desalination processes or better filtration of unwanted chemicals. The friction these pores exert on water molecules as they pass through is crucial. They found that water molecules travel in clusters through tiny, transient pores in the membrane. Their recent study upends the traditional assumption, introducing a new “solution-friction” theory.
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