Nanoelectronics Using Metal–Insulator Transition
Metal–insulator transition (MIT) coupled with an ultrafast, significant, and reversible resistive
change in Mott insulators has attracted tremendous interest for investigation into next …
change in Mott insulators has attracted tremendous interest for investigation into next …
[HTML][HTML] Smoke suppression in electron beam melting of inconel 718 alloy powder based on insulator–metal transition of surface oxide film by mechanical stimulation
A Chiba, Y Daino, K Aoyagi, K Yamanaka - Materials, 2021 - mdpi.com
In powder bed fusion–electron beam melting, the alloy powder can scatter under electron
beam irradiation. When this phenomenon—known as smoking—occurs, it makes the PBF …
beam irradiation. When this phenomenon—known as smoking—occurs, it makes the PBF …
[HTML][HTML] Artificially controlled nanoscale chemical reduction in VO2 through electron beam illumination
Chemical reduction in oxides plays a crucial role in engineering the material properties
through structural transformation and electron filling. Controlling the reduction at nanoscale …
through structural transformation and electron filling. Controlling the reduction at nanoscale …
Revealing mechanisms underlying powder reusability of Ti-48Al-2Cr-2Nb intermetallic in electron beam powder bed fusion process
Metal powder bed fusion additive manufacturing (PBF-AM) has been widely adopted in the
aerospace and orthopedic industries. As the feedstock, the condition of metal powders …
aerospace and orthopedic industries. As the feedstock, the condition of metal powders …
[HTML][HTML] A novel temperature dependent method for borophene synthesis
MA Chowdhury, MMK Uddin, MBA Shuvho… - Applied Surface Science …, 2022 - Elsevier
In energy, sensor, and biomedical applications, borophene is considered as an emerging
and promising material. However, since bulk boron exhibits rather intricate spatial structures …
and promising material. However, since bulk boron exhibits rather intricate spatial structures …
Positive and Negative Pressure Regimes in Anisotropically Strained V2O3 Films
The metal‐insulator phase transitions in V2O3 are considered archetypal manifestations of
Mott physics. Despite decades of research, the effects of doping, pressure, and anisotropic …
Mott physics. Despite decades of research, the effects of doping, pressure, and anisotropic …
Carbon nanotube-based uncooled bolometers: advances and progress
Discovery of infrared radiation (IR) was an important step in understanding the hidden
secrets of nature, which could be unraveled only after “seeing” this invisible spectrum. This …
secrets of nature, which could be unraveled only after “seeing” this invisible spectrum. This …
Strong effects of uniaxial pressure and short-range correlations in
Abstract Cr 2 Ge 2 Te 6 is a quasi-two-dimensional semiconducting van der Waals
ferromagnet down to the bilayer with great potential for technological applications …
ferromagnet down to the bilayer with great potential for technological applications …
Chemical, structural and electronic properties of ultrathin V2O3 films on Al2O3 substrate: Implications in Mott-like transitions
V 2 O 3 presents a complex interrelationship between the metal–insulator transition and the
structural rhombohedral-monoclinic one in temperature, as a function of sample thickness …
structural rhombohedral-monoclinic one in temperature, as a function of sample thickness …
Raman spectroscopy and phonon dynamics in strained
Transition metal oxides are known to have a strong interplay of many degrees of freedom
giving rise to their rich phase diagrams with competing ground states. The Mott material V 2 …
giving rise to their rich phase diagrams with competing ground states. The Mott material V 2 …