Comprehensive air quality assessment including non-targeted approaches in primary schools from Spain.

This work aims to establish a strategy to comprehensively assess the indoor air quality in schools including the analysis of chemical pollutants, bio-aerosols like fungi, bacteria and respiratory viruses and the identification of volatile and semi-volatile organic compounds applying non-targeted approaches. For this, a pilot study was performed in four primary schools from Spain, located in different urban and rural areas during different seasons. Common indoor pollutants, like CO NO, O, CO, particulate matter (PM, PM), ultrafine particles (UFP), total volatile organic compounds (TVOCs), and formaldehyde (HCHO), were assessed in terms of maximum recommended levels, daily variations, seasonality, and school location.

Influence of surface engineering on the transport properties of lead sulfide nanomaterials.

Lead Sulfide (PbS) has garnered attention as a promising thermoelectric (TE) material due to its natural abundance and cost-effectiveness. However, its practical application is hindered by inherently high lattice thermal conductivity and low electrical conductivity. In this study, we address these challenges by surface functionalization of PbS nanocrystals using CuS molecular complexes-based ligand displacement.

Exploiting the triple quadrupole mass analyzer for the open detection and tentative identification of synthetic cannabinoid receptor agonists based on common fragmentation pathways.

Background: The use of new psychoactive substances (NPS) has emerged as a significant public health concern globally, due to their unknown and unpredictable effects on both physical and mental health. Among them, synthetic cannabinoids receptor agonists (SCRAs) currently stand as the most widely consumed NPS family in Europe. Since the detection of JWH-018 in 2008, the structures of these compounds have evolved to circumvent legislation and/or enhance their effects, consequently increasing the number of reported SCRAs to be monitored.