Covers the properties of soft matter, including self-assembly, polymers, colloids, intermolecular forces, and the significance of soft materials in diverse applications.
Explains cellular uptake mechanisms, focusing on phagocytosis, pinocytosis, and receptor-mediated endocytosis, highlighting the importance of size and shape in these processes.
Explores self-assembly of Microsystems, its importance, features, motivations, and examples in various fields, highlighting landmark achievements and future prospects.
Explores self-organized growth at surfaces and covers instrumentation, destructive exposure, manipulation with SIM, nanostructures, and thin film growth.
Explores the self-assembly of heterobimetallic systems to create robust duplexes in water, emphasizing the importance of synthetic H-bond systems for materials fabrication.
Explores methods for probe immobilization on surfaces, including self-assembly and peptide bonds, discussing the role of hydrophobic interactions and kinetic models.
Explores the evolution of micro and nanoengineering, focusing on the use of silicon as a mechanical material and the application of AFM and T-SPL in nanoengineering.
Covers the evasion of immune pressure by tumors, cancer immunotherapies, drug delivery strategies, and the impact of nanoparticle characteristics on tumor penetration.
