Click Chemistry Methodology: The Novel Paintbrush of Drug Design.

Click chemistry is an immensely powerful technique for the synthesis of reliable and efficient covalent linkages. When undertaken in living cells, the concept is thereby coined bioorthogonal chemistry. Used in conjunction with the photo-cross-linking methodology, it serves as a sound strategy in the exploration of biological processes and beyond.

Unearthing new learning opportunities: adapting and innovating through the 'Antibiotics under our feet' citizen science project in Scotland during COVID-19.

'Antibiotics under our feet' is a Scottish citizen science project that aimed to raise science capital in primary school learners and their teachers through measurement of microbial diversity in urban soil samples in the search for novel antimicrobial compounds. Resistance to antibiotics is rising, posing a global threat to human health. Furthermore, science, technology, engineering and mathematics (STEM) skills are in crisis, jeopardising our capacity to mobilise as a society to fight antimicrobial resistance (AMR).

Development of a Slow-Degrading Polymerized Curcumin Coating for Intracortical Microelectrodes.

Intracortical microelectrodes are used with brain-computer interfaces to restore lost limb function following nervous system injury. While promising, recording ability of intracortical microelectrodes diminishes over time due, in part, to neuroinflammation. As curcumin has demonstrated neuroprotection through anti-inflammatory activity, we fabricated a 300 nm-thick intracortical microelectrode coating consisting of a polyurethane copolymer of curcumin and polyethylene glycol (PEG), denoted as poly(curcumin-PEG carbamate) (PCPC).

Nano-Encapsulation of Citrus Essential Oils: Methods and Applications of Interest for the Food Sector.

Citrus essential oils possess many health-promoting benefits and properties of high interest in the food and agri-food sector. However, their large-scale application is limited by their sensitivity to environmental factors. Nanostructures containing citrus essential oils have been developed to overcome the high volatility and instability of essential oils with respect to temperature, pH, UV light, etc.

The effect of 100-200 nm ZnO and TiO nanoparticles on the in vitro-grown soybean plants.

Engineered nanomaterials are increasingly used in everyday life applications and, in consequence, significant amounts are being released into the environment. From soil, water, and air they can reach the organelles of edible plants, potentially impacting the food chain and human health. The potential environmental and health impact of these nanoscale materials is of public concern.