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Complete defluorination of per- and polyfluoroalkyl substances (PFAS) by a non-thermal technology is not easy to achieve. A rationally designed photochemical–electrochemical treatment train realizes complete defluorination of PFAS mixtures in complex water matrices.
Proton transfer time-of-flight mass spectrometry offers a new analytical tool to measure aqueous concentrations of volatile analytes in real time by the approach of headspace sampling, holding significant promise for advancing understanding of water chlorination chemistry.
A membrane inspired by the arsenic–protein interactions in biological systems allows the efficient removal of various arsenic species from contaminated water.
An innovative approach for a portable water bottle utilizes walking-induced electrostatic charges to achieve highly efficient in-situ disinfection, providing a practical solution for ensuring clean water in decentralized environments.
The use of widely available groundwater and remote sensing data allows the identification of depth to groundwater thresholds to maintain water-dependent vegetation health.
An absence of precipitation combined with drying of the ground through evaporation can deplete fresh water crucial for societies and ecosystems. However, new research highlights a more remote driver of drought.
This Review highlights the strengths and limitations of deep learning approaches relative to traditional approaches, emphasizing their potential as a currently underutilized yet promising avenue for advancing our understanding of water-quality sciences.
Irrigation has helped facilitate large gains in crop yields but comes at an increasing cost to water resources, complicating climate change adaptation.
Solar desalination has the potential to contribute to the solutions regarding global water scarcity. This Review discusses the road and challenges towards the industrialization of solar desalination plants.
Self-supervised learning offers a promising way of downscaling the total water storage anomaly data from the Gravity Recovery and Climate Experiment (GRACE) satellites, contributing to a better understanding of the impact of natural climate variability and human activities at basin scales.
A solid methodology that enables the facile manufacturing of large-scale metal–organic framework membranes sets the foundation for their potential commercialization and widespread industrial application.
Using three prototypical scenarios of water contamination from legacy pollutants at contaminated sites, agricultural use of pesticides and abatement of pharmaceuticals and disinfection by-products in water treatment systems, this Review illustrates success stories of compound-specific isotope analyses and ongoing developments for future applications.
Pioneering empirical assessment shows decreases in aquifer thickness diminish the capacity of groundwater supplies to buffer agricultural production from drought.
Correlation between total suspended solids and plastic nanoparticles suggests a simple approach to measure the amount of nanoplastic in wastewater effluents.
The combination of advancements in evapotranspiration theory, eddy covariance flux measurements of water vapour and satellite remote sensing are putting technology on the verge of producing information on evapotranspiration with unprecedented coverage and resolution. The OpenET project provides this information to farmers and land and water managers for better water practice.
Drinking water infrastructure in urban settings is increasingly affected by population growth and disruptions like extreme weather events. The integration of direct wastewater reuse can help to maintain drinking water service when the system is compromised.
The potential hazard of per- and polyfluoroalkyl substances has led to new regulations affecting requirements for water quality. This Perspective proposes a protocol to adapt water treatment technology to meet new regulation requirements.