Crystals Info Base
Important Info About MoSe2
MoSe2 is a layered material with strong in-plane bonding and weak out-of-plane interactions. These interactions lead to exfoliation into two-dimensional layers of single unit cell thickness. In addition, MoSe2 have sizable bandgaps that...
Important Info About MoSe2
MoSe2 is a layered material with strong in-plane bonding and weak out-of-plane interactions. These interactions lead to exfoliation into two-dimensional layers of single unit cell thickness. In addition, MoSe2 have sizable bandgaps that...
Important Info About WS2
WS2 (Tungsten Disulfide) is the first material which was found to form inorganic nanotubes, in 1992. This ability is related to the layered structure of WS2.WS2 nanotubes have been investigated...
Important Info About WS2
WS2 (Tungsten Disulfide) is the first material which was found to form inorganic nanotubes, in 1992. This ability is related to the layered structure of WS2.WS2 nanotubes have been investigated...
Important Info About WSe2
WSe2 (Tungsten Diselenide) is a very stable semiconductor in the group-VI transition metal dichalcogenides. WSe2 photoelectrodes are stable in both acidic and basic conditions, making them potentially useful in electrochemical solar cells. Also,...
Important Info About WSe2
WSe2 (Tungsten Diselenide) is a very stable semiconductor in the group-VI transition metal dichalcogenides. WSe2 photoelectrodes are stable in both acidic and basic conditions, making them potentially useful in electrochemical solar cells. Also,...
Important Info About WTe2
(WTe2) Tungsten Ditelluride, which has layered struture is discovered to exhibit an extremely large magnetoresistance: 13 million percent with no known saturation point. The substance can be exfoliated into thin sheets...
Important Info About WTe2
(WTe2) Tungsten Ditelluride, which has layered struture is discovered to exhibit an extremely large magnetoresistance: 13 million percent with no known saturation point. The substance can be exfoliated into thin sheets...
Important Info About LSAT (LaAlO3)0.3 (Sr2AlTaO...
LSAT (LaAlO3)0.3 (Sr2AlTaO6)0.7 is a newly developing crystal with peroviskite structure and twin-free. LSAT has excellent lattice match with high Tc superconductors and many oxide materials. LSAT has lower melting point and can be grown...
Important Info About LSAT (LaAlO3)0.3 (Sr2AlTaO...
LSAT (LaAlO3)0.3 (Sr2AlTaO6)0.7 is a newly developing crystal with peroviskite structure and twin-free. LSAT has excellent lattice match with high Tc superconductors and many oxide materials. LSAT has lower melting point and can be grown...
Important Info About LiNbO3
LiNbO3 Crystal has unique electro-optical, piezoelectric, photoelastic and nonlinear optical properties. They are strongly birefringent. They are used in laserfrequency doubling, nonlinear optics, Pockels cells, optical parametric oscillators, Q-switching devices for lasers, other acousto-opticdevices, optical switches for gigahertz frequencies, etc. It is an excellent material for...
Important Info About LiNbO3
LiNbO3 Crystal has unique electro-optical, piezoelectric, photoelastic and nonlinear optical properties. They are strongly birefringent. They are used in laserfrequency doubling, nonlinear optics, Pockels cells, optical parametric oscillators, Q-switching devices for lasers, other acousto-opticdevices, optical switches for gigahertz frequencies, etc. It is an excellent material for...