Adsorption and reduction techniques are the main approaches for Hg2+ remediation. The delocalizedFig. Graphical abstract
Adsorption and reduction techniques are the main approaches for Hg2+ remediation. The delocalized electrons of nonlinear optical materials (NLOM) can be used as electron donors, while reduction remediation material based on this has not yet been reported. In this w...
Accelerating relative sea-level rise (RSLR) is threatening coastal wetlands. However, rising CO2Fig1. Ambient CO2 and shoot biomassFig2. Shoot biomass responses to eCO2Fig3. Early and late phases of eCO2 responsesFig4. Shoot biomass eCO2 response to sea level Accelerating relative sea-level rise (RSLR) is threatening coastal wetlands. However, rising CO2 concentrations may also stimulat...
Phytoremediation is a potentially cost-effective and environmentally friendly remediation method forFig. Graphical abstract Phytoremediation is a potentially cost-effective and environmentally friendly remediation method for environmental pollution. However, the safe treatment and resource utilization of harvested biomass has become a limitation in practical applications. To address this, a...
Phytoremediation is a potentially cost-effective and environmentally friendly remediation method for enviro Fig. Graphical abstract
Antimony trioxide (Sb2O3) is one of the primary forms of Sb in the environment, and its dissolution significantly impacts the migration and bioavailability of Sb. However, the dissolution of Sb2O3 coupled with abiotic redox of Mn processes is unclear. Here, we inv...
Ferrate (Fe(VI)) salts like K2FeO4 are efficient green oxidants to remediate organic contaminants in waterFerrate (Fe(VI)) salts like K2FeO4 are efficient green oxidants to remediate organic contaminants in water treatment. Minerals are efficient sorbents of contaminants and also excellent solid heterogeneous catalysts which might affect Fe(VI) remediation processes. By targeting the typical poly...