Two-dimensional tellurium: Progress, challenges, and prospects
Since the successful fabrication of two-dimensional (2D) tellurium (Te) in 2017, its
fascinating properties including a thickness dependence bandgap, environmental stability …
fascinating properties including a thickness dependence bandgap, environmental stability …
Two-dimensional nanomaterials with engineered bandgap: Synthesis, properties, applications
Encouraged by its excellent electronic, optical, and mechanical properties, two-dimensional
nanomaterials, including graphene, germanene, silicene, phosphorene, transition metal …
nanomaterials, including graphene, germanene, silicene, phosphorene, transition metal …
The resurrection of tellurium as an elemental two-dimensional semiconductor
The graphene boom has triggered a widespread search for novel elemental van der Waals
materials thanks to their simplicity for theoretical modeling and easy access for material …
materials thanks to their simplicity for theoretical modeling and easy access for material …
Hydrogen-assisted growth of one-dimensional tellurium nanoribbons with unprecedented high mobility
High-mobility van der Waals ambipolar semiconductors are promising in logic and
reconfigurable circuits, integrated optoelectronic circuits, due to the excellent gate-controlled …
reconfigurable circuits, integrated optoelectronic circuits, due to the excellent gate-controlled …
Novel two-dimensional monoelemental and ternary materials: growth, physics and application
W Gao, Z Zheng, P Wen, N Huo, J Li - Nanophotonics, 2020 - degruyter.com
Abstract Two-dimensional (2D) materials have undergone a rapid development toward real
applications since the discovery of graphene. At first, graphene is a star material because of …
applications since the discovery of graphene. At first, graphene is a star material because of …
Tailoring the dimensionality of tellurium nanostructures via vapor transport growth
The interest in tellurium nanostructures is on the rise due to their outstanding physical
properties including high carrier mobility, anisotropic charge conduction, photoconductivity …
properties including high carrier mobility, anisotropic charge conduction, photoconductivity …
High-quality two-dimensional tellurium flakes grown by high-temperature vapor deposition
B Huang, Z Lei, X Cao, A Wei, L Tao, Y Yang… - Journal of Materials …, 2021 - pubs.rsc.org
Elemental two-dimensional (2D) tellurium (Te) possesses fascinating properties such as
high mobility, strong anisotropy and strong infrared response, which show great potential for …
high mobility, strong anisotropy and strong infrared response, which show great potential for …
Computational Study of Strong Phonon Softening and Electron–Phonon Interaction in Doped Monolayer Tellurene: Implications for Neuromorphic Applications
Synthesized two-dimensional tellurene (2D-Te) has gained widespread attention due to its
merits of air stability and high carrier mobility. However, the mechanism of intrinsic carrier …
merits of air stability and high carrier mobility. However, the mechanism of intrinsic carrier …
2D nonlayered tellurium nanosheets for self-powered photodetectors
N Zhao, K Wang, J Li - Applied Physics A, 2023 - Springer
Tellurium (Te) is a kind of multifunctional material attracting a great deal of interest. Herein,
we described a substrate-free solution process to produce Te nanosheets (Te NSs) and …
we described a substrate-free solution process to produce Te nanosheets (Te NSs) and …
Sputtered thermoelectric nanoparticles for an ultra-thin, flexible and cuttable self-powered temperature sensor
Inadequate energy for the growing population has been a major concern in the recent years.
Though efforts are being made to alleviate this problem, the crisis still exists. For this reason …
Though efforts are being made to alleviate this problem, the crisis still exists. For this reason …