Between 2025 and 2030, growth will be driven by large-scale infrastructure renewal and industrial adoption of membrane filtration, nutrient-removal systems, and automated water-quality monitoring.

Frasier Smith, ND Abstract Understanding how persistent plastic particles infiltrate human physiology—and what clinicians can do to help patients mitigate… Microplastics and Nanoplastics: Emerging Hea ...

Sample preparation is often the most time-consuming and error-prone step in analytical workflows. Micro solid phase extraction (µSPE) offers a miniaturized, automated solution that boosts efficiency ...

The antimicrobial triclosan is widely used in personal hygiene products, textiles and plastics, but when it enters the environment via wastewater, it poses a significant threat to aquatic organisms. A ...

Description: Sulfur Guard purifies compressed air and gas streams by removing sulfur compounds, aromatic hydrocarbons, and aldehydes plus other potential contaminants through chemical adsorption.

Ensuring biostable drinking water is a growing priority for drinking water utilities, especially in non- or minimally chlorinated distribution systems where microbial regrowth is controlled through ...

LCGC International spoke to Damià Barceló at the University of Almeria to explore the technical and methodological barriers to microplastic analysis in complex environmental matrices. Microplastic ...

Japanese technology company Asahi Kasei has announced that its Microza & Water Processing Division, which provides Microza® hollow-fiber membranes for filtration and separation, received a Gold rating ...

They’re small, sneaky and swimming in your veins. Microplastics have been found throughout the human body — and early research suggests they may pose some serious health risks. Now, scientists say a ...