Recent progress in vanadium dioxide: The multi-stimuli responsive material and its applications
The reversible phase transition in vanadium dioxide (VO 2) with light, heat, electric,
magnetic, and mechanical stimuli is the enabling concept to function as a smart material. It is …
magnetic, and mechanical stimuli is the enabling concept to function as a smart material. It is …
Atomic layer deposition of vanadium oxides: process and application review
Atomic layer deposition (ALD) is a method of choice for the growth of highly conformal thin
films with accurately controlled thickness on planar and nanostructured surfaces. These …
films with accurately controlled thickness on planar and nanostructured surfaces. These …
A 1D Vanadium Dioxide Nanochannel Constructed via Electric‐Field‐Induced Ion Transport and its Superior Metal–Insulator Transition
W Xue, G Liu, Z Zhong, Y Dai, J Shang, Y Liu… - Advanced …, 2017 - Wiley Online Library
Nanoscale manipulation of materials' physicochemical properties offers distinguished
possibility to the development of novel electronic devices with ultrasmall dimension, fast …
possibility to the development of novel electronic devices with ultrasmall dimension, fast …
Opportunities in vanadium-based strongly correlated electron systems
The diverse and fascinating properties of transition metal oxides stem from the strongly
correlated electronic degrees of freedom; the scientific challenge and range of possible …
correlated electronic degrees of freedom; the scientific challenge and range of possible …
High-Mobility Carriers in Epitaxial IrO2 Films Grown using Hybrid Molecular Beam Epitaxy
Binary rutile oxides of 5d metals such as IrO2 stand out in comparison to their 3d and 4d
counterparts due to limited experimental studies, despite rich predicted quantum …
counterparts due to limited experimental studies, despite rich predicted quantum …
Gate‐Induced Massive and Reversible Phase Transition of VO2 Channels Using Solid‐State Proton Electrolytes
The use of gate bias to control electronic phases in VO2, an archetypical correlated oxide,
offers a powerful method to probe their underlying physics, as well as for the potential to …
offers a powerful method to probe their underlying physics, as well as for the potential to …
A steep-slope transistor combining phase-change and band-to-band-tunneling to achieve a sub-unity body factor
Steep-slope transistors allow to scale down the supply voltage and the energy per computed
bit of information as compared to conventional field-effect transistors (FETs), due to their sub …
bit of information as compared to conventional field-effect transistors (FETs), due to their sub …
Carrier-Induced Metal-to-Insulator Transition in Electrostatically Doped VO2
Metal-to-insulator transition (MIT) in strongly correlated electronic systems such as
vanadium dioxide (VO2) is known to be modulated by carrier do**. However, previous …
vanadium dioxide (VO2) is known to be modulated by carrier do**. However, previous …
Ultrafast, kinetically limited, ambient synthesis of vanadium dioxides through laser direct writing on ultrathin chalcogenide matrix
Vanadium dioxide (VO2) is a strongly correlated electronic material and has attracted
significant attention due to its metal-to-insulator transition and diverse smart applications …
significant attention due to its metal-to-insulator transition and diverse smart applications …
Controlling the Temperature and Speed of the Phase Transition of VO2 Microcrystals
We investigated the control of two important parameters of vanadium dioxide (VO2)
microcrystals, the phase transition temperature and speed, by varying microcrystal width. By …
microcrystals, the phase transition temperature and speed, by varying microcrystal width. By …