Structural Visualization of α-SnSe by Atomic Force Microscopy

Ubiquitous but highly variable processes of therapeutic protein aggregation remain poorly characterized, especially in the context of common infusion reactions and clinical immunogenicity. Among the numerous challenges is the characterization of intermediate steps that lead to the appearance of prec

## Abstract Intrinsically disordered (ID) regions of proteins are recognized to be involved in biological processes such as transcription, translation, and cellular signal transduction. Despite the important roles of ID regions, effective methods to observe these thin and flexible structures direct

## Abstract Vitronectin (Vn) is an abundant glycoprotein present in plasma and the extracellular matrix of most tissue and is an important medium required for bone cells to attach and spread on biomaterial surfaces. Hence, Vn adsorption is an initial and key step in implantation. In this study, ads

Interaction forces between a silica sphere and an a-alumina ments has been the surface force apparatus (2) in which substrate at various pH values were measured by atomic force forces between two macroscopic surfaces (usually mica) are microscopy (AFM). As expected, at pH values of 10.8 and 10.2 mea

Atomic force microscopy was used to investigate the influence of mechanical processing (milling) on the surface stability of salbutamol sulfate. Phase imaging, a development of tapping mode atomic force microscopy, was used to elucidate variations in the physico-mechanical properties on the surface