Developing low‐cost single‐atom catalysts (SACs) with high‐density active sites for oxygen
reduction/evolution reactions (ORR/OER) are desirable to promote the performance and …

The capability to excite, probe, and manipulate vibrational modes is essential for
understanding and controlling chemical reactions at the molecular level. Recent …

Heterogeneous structured nanomaterials can be considered as a class of advanced
materials that integrate multiple phases, different elements, or components into a single …

Abstract Solution‐processed, large‐area, and flexible electronics largely relies on the
excellent electronic properties of sp2‐hybridized carbon molecules, either in the form of π …

Linear carbon chains (LCCs) are the ultimate one-dimensional molecular system, and they
show unique mechanical, optical, and electronic properties that can be tuned by altering the …

One-dimensional (1D) linear nanostructures comprising sp-hybridized carbon atoms, as
derivatives of the prototypical allotrope known as carbyne, are predicted to possess …

Carbyne, the ideal linear atomic wire consisting of a single-atom thick chain of sp-carbon, is
theoretically predicted to have around five times higher surface area than graphene, notable …

Short carbon atomic wires, the prototypes of the lacking carbon allotrope carbyne, represent
the fundamental 1D system and the first stage in carbon nanostructure growth, which still …

Vibrational and electronic properties and anharmonicity of sp-carbon atomic wires (ie,
polyynes) have been studied using resonance Raman spectroscopy, focusing on the …

Based on a computational approach that can accurately describe their geometric structures
and electronic spectra, we have theoretically studied the nonlinear optical (NLO) properties …