Delves into supramolecular chemistry, focusing on molecular machines and motors, exploring design principles and experimental support for controlled motion.
Covers the basics of supramolecular chemistry, including self-assembly processes and molecular interactions such as hydrogen bonding and cation-π interactions.
Explores self-organized growth at surfaces and covers instrumentation, destructive exposure, manipulation with SIM, nanostructures, and thin film growth.
Explores the F-type ATP Synthase, a molecular machine crucial for energy production in cells, covering its structure, function, and energy production mechanisms.
Explores molecular machines in mycobacterial protein quality control pathways, focusing on degradation, proteases, and pupylation-dependent degradation.
Explores self-assembly of Microsystems, its importance, features, motivations, and examples in various fields, highlighting landmark achievements and future prospects.
Explores DNA origami through a nano capsule structure, showcasing its potential for precise drug delivery and functionalization with various molecules.
Explores the design and synthesis of interlocked molecules like catenanes and rotaxanes, along with the structural and symbolic significance of knots and Borromean rings.
