254290
Lithium niobate
99.9% trace metals basis, powder
Synonym(s):
Lithium metaniobatem, Lithium niobium oxide, Lithium niobium trioxide
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About This Item
Linear Formula:
LiNbO3
CAS Number:
Molecular Weight:
147.85
NACRES:
NA.22
PubChem Substance ID:
UNSPSC Code:
12161600
EC Number:
234-755-4
MDL number:
Product Name
Lithium niobate, 99.9% trace metals basis
InChI key
GQYHUHYESMUTHG-UHFFFAOYSA-N
InChI
1S/Li.Nb.3O/q+1;;;;-1
SMILES string
[Li+].[O-][Nb](=O)=O
assay
99.9% trace metals basis
form
powder
reaction suitability
core: niobium
reagent type: catalyst
particle size
200 mesh
Quality Level
Related Categories
Storage Class
11 - Combustible Solids
wgk
WGK 3
flash_point_f
Not applicable
flash_point_c
Not applicable
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Hector de Castilla et al.
Materials (Basel, Switzerland), 12(16) (2019-08-10)
Piezoelectric materials have the intrinsic reversible ability to convert a mechanical strain into an electric field and their applications touch our daily lives. However, the complex physical mechanisms linking mechanical and electrical properties make these materials hard to understand. Computationally
W Horn et al.
Optics express, 20(24), 26922-26928 (2012-11-29)
We report the fabrication of femtosecond laser-induced, first-order waveguide Bragg gratings in lithium niobate in the low repetition rate regime. Type-II waveguides are written into an x-cut lithium niobate wafer and structured periodically to achieve narrowband reflections at wavelengths around
Tao Chen et al.
Applied optics, 51(28), 6881-6885 (2012-10-04)
We experimentally demonstrated a compact fiber laser-pumped multichannel PPMgLN-based optical parametric oscillator (OPO) generating total OPO output power of 15.8, 15.2, 14.2, 12.9, and 8.8 W with idler output power of 4.7, 4.3, 4.1, 3.3, and 2.1 W at the
Julien Macario et al.
Optics express, 20(21), 23623-23629 (2012-11-29)
In recent years, the development of new lithium niobate electro-optic modulator designs and material processing techniques have contributed to support the increasing need for faster optical networks by considerably extending the operational bandwidth of modulators. In an effort to provide
Lisa Miccio et al.
Lab on a chip, 12(21), 4449-4454 (2012-09-11)
We explore a novel approach for fabricating polymeric microfluidic-channelled dielectrophoretic (DEP) chips by direct laser projection through a holographic Spatial-Light-Modulator (SLM) onto photorefractive crystal substrates. As the first step, an all-optical mould-free approach was used to fabricate the PDMS microfluidic
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