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Explores the fundamentals and applications of nanostructures, including dimensionalities, surface-to-volume ratio, fabrication techniques, and nanotechnology's impact on various fields.
Explores methods for probe immobilization on surfaces, including self-assembly and peptide bonds, discussing the role of hydrophobic interactions and kinetic models.
Explores functional nanomaterials for energy, sensing, and biomedical applications, focusing on polymer-based piezoelectric and triboelectric materials.
Delves into supramolecular chemistry, focusing on molecular machines and motors, exploring design principles and experimental support for controlled motion.
Explores the engineering of intrinsic π-electron magnetism in carbon nanostructures, focusing on inducing magnetism in graphene and nanographenes through sublattice imbalance and topological frustration.
Explores the self-assembly of heterobimetallic systems to create robust duplexes in water, emphasizing the importance of synthetic H-bond systems for materials fabrication.
