Protein therapeutics have transformed modern medicine through precisely engineered molecules that offer targeted treatment options in a range of diseases. Advances in formulation strategies, stability ...

The burgeoning field of nanomaterials has sparked transformative advancements across numerous scientific disciplines. Nanomaterials, defined by their sub‑100 nm dimensions, exhibit unique physical, ...

Traditionally, analyzing materials involved techniques tailored for specific scales, which made integrating data from these different methods quite challenging. However, recent advancements in ...

Particle characterization is the process of measuring various properties of particles, such as size, shape, surface area, or other physical or chemical properties. Characterization is done using a ...

Glial cells, such as microglia, astrocytes and oligodendrocytes, play a number of key roles in the central nervous system (CNS) but are often overlooked. However, the field of glial biology is ...

There are around 20 known MXene structures at present, and some of the main excitement around these materials comes from some of their potential applications, including as energy storage materials. 2 ...

Surface properties dictate a vast array of material characteristics that are crucial to performance, durability, and intended functionality across diverse industries. Properties such as friction, wear ...

Explore how multi-angle light scattering enhances biosimilar analysis by delivering accurate molecular weight and size ...

Nanoparticles, also known as nanomaterials, have become terms familiar not only to scientists and engineers but also to the general public. This is due to their unique physical and chemical properties ...

Prokaryotic and eukaryotic cells change and adapt to their environments in ways that genomic characterization methods do not fully capture or predict. Even strains of the same species of microbe can ...