Self-assembly of curved aromatic molecules in nanoparticles

“…Helix structures possess a unique fascinating spiral geometry, exhibiting excellent structural stability, artistic beauty, and multiple advanced functionalities. − The helical configuration endows biomolecules, such as peptides, proteins, DNA, and polysaccharides in nature, with direct relation to the biological functions. − Inspired by this unique “structure–function” relationship, researchers have been searching for novel one-dimensional linear molecules that are capable of forming helices through noncovalent interactions to mimic or further explore their unique structures and properties. − Self-assembly is one of the promising fabrication strategies providing a practical way to design and fabricate a new helix from one-dimensional molecules. The self-assembly originates from the energy optimization realized through noncovalent interactions of individual structural units to reach the lowest-energy state. − …”

Helical Self-Assembly of Poly(para-phenylene) Chains Induced by Fullerenes

“…Helix structures possess a unique fascinating spiral geometry, exhibiting excellent structural stability, artistic beauty, and multiple advanced functionalities. − The helical configuration endows biomolecules, such as peptides, proteins, DNA, and polysaccharides in nature, with direct relation to the biological functions. − Inspired by this unique “structure–function” relationship, researchers have been searching for novel one-dimensional linear molecules that are capable of forming helices through noncovalent interactions to mimic or further explore their unique structures and properties. − Self-assembly is one of the promising fabrication strategies providing a practical way to design and fabricate a new helix from one-dimensional molecules. The self-assembly originates from the energy optimization realized through noncovalent interactions of individual structural units to reach the lowest-energy state. − …”

Helical Self-Assembly of Poly(para-phenylene) Chains Induced by Fullerenes

Topological defects and anisotropic development during pre-graphitization

Soot inception: Carbonaceous nanoparticle formation in flames