Magnetic particle imaging (MPI) represents a cutting‐edge imaging modality that directly visualises the spatial distribution of superparamagnetic nanoparticles. By harnessing the non‐linear ...

Strategies for monitoring subvisible particles in biopharmaceutical formulations are central to developing and manufacturing safe, effective drug products. This webinar will introduce flow imaging ...

Nanotechnology has emerged as a ground-breaking field with vast potential in various industries, ranging from medicine and electronics to environmental science and energy. At the heart of this ...

Flow Imaging Microscopy (FIM), also referred to as Dynamic Image Analysis (DIA), combines the advantages of traditional particle counters with high-resolution imaging to efficiently and expeditiously ...

The legacy analog imaging technology continues to power cutting-edge aerosol particle analysis at ETH Zurich.

Investigators rely on particle characterization methods to gain a deeper understanding of key properties that influence both the manufacturing process and the quality of the final product. As ...

One of the fundamental purposes of biotherapeutic research, development, and production is to assure the safety and efficacy of medicinal products in clinical settings. Analytical tools are critical ...

Particles are contained in several types of materials. They are found in granules and powders like pharmaceutical ingredients, cement, and pigments. Particles are present in slurries, emulsions, and ...

Particle analysis is key in solid-state battery development, influencing performance and safety through precise measurement of size, morphology, and density.