Min Ouyang

TL;DR: By controlling soft acid-base coordination reactions between molecular complexes and colloidal nanostructures, it is shown that chemical thermodynamics can drive nanoscale monocrystalline growth of the semiconductor shell with a lattice structure incommensurate with that of the core.

TL;DR: Recent scanning tunneling microscopy studies of the intrinsic electronic properties of single-walled carbon nanotubes (SWNTs) are overviewed and the implications for understanding fundamental one-dimensional physics and future nanotube device applications are discussed.

TL;DR: Both experiments and modeling suggest that this dynamic infrared gating effect mainly arises from distance-dependent electromagnetic coupling between neighboring coated fibers in the textile yarns, which opens a pathway for developing wearable localized thermal management systems that are autonomous and self-powered, as well as expanding the ability to adapt to demanding environments.

TL;DR: The results suggest that this class of structures may be useful as two-spin quantum devices operating at ambient temperatures and may offer promising opportunities for future versatile molecule-based spintronic technologies.