Low-Temperature Preparation of Tailored Carbon Nanostructures in Water

The development of low-temperature carbonization procedures promises to provide novel nanostructured carbon materials that are of high current interest in materials science and technology. Here, we report a "wet-chemical" carbonization method that utilizes hexayne amphiphiles as metastable carbon precursors. Nearly perfect control of the nanoscopic morphology was achieved by self-assembly of the precursors into colloidal aggregates with tailored diameter in water. Subsequent carbonization furnished carbon nanocapsules with a carbon microstructure resembling graphite-like amorphous carbon materials.

Low-Temperature Preparation of Tailored Carbon Nanostructures in Water

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Long live(d) CsPbBr3 superlattices: colloidal atomic layer deposition for structural stability

Controlled Formation of Nanoribbons and Their Heterostructures via Assembly of Mass-Selected Inorganic Ions

Plasmonically enhanced molecular junctions for investigation of atomic-scale fluctuations in self-assembled monolayers

Long live(d) CsPbBr3 superlattices: colloidal atomic layer deposition for structural stability

Controlled Formation of Nanoribbons and Their Heterostructures via Assembly of Mass-Selected Inorganic Ions

Plasmonically enhanced molecular junctions for investigation of atomic-scale fluctuations in self-assembled monolayers