Themed collection Environmental Science: Nano Recent HOT Articles

This novel single-particle multi-element fingerprinting (spMEF) method makes it possible to discriminate engineered and natural nanoparticles in complex matrices.

The manifestation of differential metabolic profiles combined with the perturbation of physiological indicators in M. aeruginosa upon silver nanoparticle exposure is taken as evidence of damage to photosynthesis and membranes.

A new 2D nanomaterial testing prioritization framework based on media specific chemical behavior.

Our goal was to characterize the uncertainty in the estimates of the mobility and reactivity of polydisperse nanocolloids introduced into computations when a distribution of particle sizes is replaced with a representative particle diameter through ensemble averaging.

A novel adsorbent (titanium phosphate nanotube) with high performance for U(VI) adsorption was fabricated through a facile solvothermal method.

This study investigated the toxicity of CuO nanoparticles (NPs) to Nicotiana tabacum L. cv. Bright Yellow-2 (BY-2) cells.

Enhanced production and adsorption of atomic H* for efficient electrocatalytic dechlorination of TCAA with a Pd/rGO composite electrode.

Free and protonated amino groups anchored on the macrostructures are responsible for U(VI) and Re(VII) adsorption, respectively.

Nanoparticle (NP) aggregation is typically investigated in either quiescent or turbulent mixing conditions; neither is fully representative of dynamic natural environments.

This study applies and tests new risk screening tools for engineered nanomaterials and highlights key findings.

Nanoceria ROS scavenging is a key tool for understanding and improving plant tolerance to salinity, a stress that severely limits crop yield worldwide.

The environmental transformation of graphene oxide (GO) can significantly change its physicochemical properties, thus altering its toxicity.

Interaction of carbon nanotubes with microbial enzymes.

Accurate measurement of engineered nanomaterial (ENM) release from diverse product lines and matrices during use is critical to evaluating environmental impacts across the life cycle of a nano-enabled product.

Cerium oxide nanoparticles (CeNPs) are potent reactive oxygen and nitrogen species scavengers and demonstrate beneficial antioxidant properties in both cell culture and animal studies.

A dynamic life cycle impact assessment model demonstrates a non-constant intake fraction of inhaled nano-TiO₂ as total emissions changes.

Mixed ligand shells are frequently employed to impart multiple and new functions to inorganic nanoparticles.

The relationships between the physicochemical properties of engineered nanomaterials (ENMs) and their adverse health and environmental effects are still unclear.

Quantitative data on nanoparticle and cation uptake are compared in a compartment-specific way and distinct differences between metals were identified.

This work demonstrates that even nonreactive clays may influence outcomes of natural attenuation in contaminated groundwater by iron oxide nanoparticles.

Sludge treated with ENMs caused greater effects on earthworm reproduction than sludge treated with metal salts.