Distinctive finite size effects on the phase diagram and metal–insulator transitions of tungsten-doped vanadium(iv) oxide

Abstract: The influence of finite size in altering the phase stabilities of strongly correlated materials gives rise to the interesting prospect of achieving additional tunability of solid-solid phase transitions such as those involved in metal-insulator switching, ferroelectricity, and superconductivity. We note here some distinctive finite size effects on the relative phase stabilities of insulating (monoclinic) and metallic (tetragonal) phases of solid-solution W x V 1Àx O 2 . Ensemble differential scanning calorimet… Show more

“…[9][10][11][12][13] Therefore, much effort has been made to modulate the MIT by various approaches such as strain engineering, 14,15 ionic liquid gating, [16][17][18] electric field-induced oxygen vacancy, 19 and chemical doping. [20][21][22][23][24][25] In terms of chemical doping, using metal elements such as tungsten during growth can dramatically change the transition properties 20,26 , but it is an irreversible process. Recently, we have demonstrated that reversible doping with atomic hydrogen alters the electronic phase transition.…”

Hydrogen Diffusion and Stabilization in Single-Crystal VO₂ Micro/Nanobeams by Direct Atomic Hydrogenation

“…[9][10][11][12][13] Therefore, much effort has been made to modulate the MIT by various approaches such as strain engineering, 14,15 ionic liquid gating, [16][17][18] electric field-induced oxygen vacancy, 19 and chemical doping. [20][21][22][23][24][25] In terms of chemical doping, using metal elements such as tungsten during growth can dramatically change the transition properties 20,26 , but it is an irreversible process. Recently, we have demonstrated that reversible doping with atomic hydrogen alters the electronic phase transition.…”

Hydrogen Diffusion and Stabilization in Single-Crystal VO₂ Micro/Nanobeams by Direct Atomic Hydrogenation

“…50 K/at.% for the nano structures. 14,15 The mechanism behind this MIT transition has been debated for several decades and it has attracted great attention from various research areas. Two different points of views, as being more a Motttype transition characterized by strong electron-electron correlations 16,17 , or more a Peierls-type transition triggered by the structural V dimerization, have been supported experimentally and theoretically.…”

Direct evidence of tungsten clustering in W0.02V0.98O2 thin films and its effect on the metal-to-insulator transition

“…Moreover, the T c of VO 2 (M) can be tuned by doping with W, Mo, Nb, F atoms, etc. or their mixtures [4][5][6][7][8][9][10][11]. These features make VO 2 to be suitable for applications [5,9,10,[12][13][14][15][16][17] in optical switches, storage medium, smart window coatings, temperature-sensing devices, laser protection, etc.…”

“…In the past decades, a lot of methods [4][5][6][7][8][9][10][11][14][15][16][17][18][19][20][21][22][23][24], such as RF sputtering, pulsed laser, deposition vacuum evaporation, physical vapor deposition, thermolysis, chemical vapor deposition, sol-gel, hydrothermal synthesis and so on, have been developed to synthesize VO 2 (M) or doped VO 2 (M). All of above methods, the hydrothermal method [5][6][7]11] has been paid increasing attention to synthesize W-doped VO 2 (M) because of its uncomplicated route and mass production recently.…”

The additives W, Mo, Sn and Fe for promoting the formation of VO2(M) and its optical switching properties