Layer-structured anisotropic metal chalcogenides: recent advances in synthesis, modulation, and applications
The unique electronic and catalytic properties emerging from low symmetry anisotropic (1D
and 2D) metal chalcogenides (MCs) have generated tremendous interest for use in next …
and 2D) metal chalcogenides (MCs) have generated tremendous interest for use in next …
One-dimensional van der Waals quantum materials
The advent of graphene and other two-dimensional van der Waals materials, with their
unique electrical, optical, and thermal properties has resulted in tremendous progress for …
unique electrical, optical, and thermal properties has resulted in tremendous progress for …
One-dimensional van der Waals material tellurium: Raman spectroscopy under strain and magneto-transport
Experimental demonstrations of one-dimensional (1D) van der Waals material tellurium (Te)
have been presented by Raman spectroscopy under strain and magneto-transport. Raman …
have been presented by Raman spectroscopy under strain and magneto-transport. Raman …
Raman response and transport properties of tellurium atomic chains encapsulated in nanotubes
Tellurium can form nanowires of helical atomic chains. With their unique one-dimensional
van der Waals structure, these nanowires are expected to show physical and electronic …
van der Waals structure, these nanowires are expected to show physical and electronic …
Low‐Frequency Current Fluctuations in Quasi‐1D (TaSe4)2I Weyl Semimetal Nanoribbons
Low‐frequency current fluctuations, ie, electronic noise, in quasi‐1D (TaSe4) 2I Weyl
semimetal nanoribbons are discussed. It is found that the noise spectral density is of the 1/f …
semimetal nanoribbons are discussed. It is found that the noise spectral density is of the 1/f …
Visualization of the strain-induced topological phase transition in a quasi-one-dimensional superconductor TaSe3
Control of the phase transition from topological to normal insulators can allow for an on/off
switching of spin current. While topological phase transitions have been realized by …
switching of spin current. While topological phase transitions have been realized by …
Electronics and optoelectronics of quasi-1D layered transition metal trichalcogenides
The isolation of graphene and transition metal dichalcongenides has opened a veritable
world to a great number of layered materials which can be exfoliated, manipulated, and …
world to a great number of layered materials which can be exfoliated, manipulated, and …
Electrically Insulating Flexible Films with Quasi‐1D van der Waals Fillers as Efficient Electromagnetic Shields in the GHz and Sub‐THz Frequency Bands
Polymer composite films containing fillers comprising quasi‐1D van der Waals materials,
specifically transition metal trichalcogenides with 1D structural motifs that enable their …
specifically transition metal trichalcogenides with 1D structural motifs that enable their …
Anisotropic quasi-one-dimensional layered transition-metal trichalcogenides: synthesis, properties and applications
The strong in-plane anisotropy and quasi-1D electronic structures of transition-metal
trichalcogenides (MX3; M= group IV or V transition metal; X= S, Se, or Te) have pronounced …
trichalcogenides (MX3; M= group IV or V transition metal; X= S, Se, or Te) have pronounced …
Quasi-one-dimensional van der Waals transition metal trichalcogenides
The transition metal trichalcogenides (TMTCs) are quasi-one-dimensional (1D) MX3-type
van der Waals layered semiconductors, where M is a transition metal element of groups IV …
van der Waals layered semiconductors, where M is a transition metal element of groups IV …