Others
Organometallic Compounds
Technical Information
Nichia supplies high-purity Titanium, Zirconium, Nickel compounds, etc. produced by Nichia's proprietary techniques. These compounds have many applications such as catalysts for polymerization and organic synthesis and raw materials for high performance electronic materials.
(Metal/Metal Oxide, etc.)
Organometallic Compound, Metal Carboxylate
Nichia offers a wide range of organic metal complex compounds. Nichia can synthesize organometallic compounds with ligands of cyclopentadiene and its derivatives, alkoxides, phosphines, and organic acid.
![Metallocene compounds](../../img/product/catalysts/formula02.png)
![Nickel Complex](../../img/product/catalysts/formula04.png)
![Metal Carboxylate](../../img/product/catalysts/formula01.png)
M:Metal element R:Alkyl group or hydrogen
Metallocene compounds
Titanocene dichloride
![Titanocene dichloride](../../img/product/catalysts/formula06.png)
Substance | Titanocene dichloride |
---|---|
Formula | [(C5H5)2TiCl2] |
CAS No. | 1271-19-8 |
Applications | Catalysts (Polymerization/Hydrogenation/Organic Synthesis), Raw Materials for Electronics Materials, Curing Agent |
Zirconocene dichloride
![Zirconocene dichloride](../../img/product/catalysts/formula07.png)
Substance | Zirconocene dichloride |
---|---|
Formula | [(C5H5)2ZrCl2] |
CAS No. | 1291-32-3 |
Applications | Catalysts (Polymerization/Organic Synthesis), Electronics Materials Stabilizer |
Application of organic syntheses to Zirconocene dichloride
The Negishi reagent (Cp2ZrBu2), derived from zirconocene dichloride, has been used for high-stereoselective and regioselective coupling reactions or cyclization. For example, polysubstituted pentacene derivatives having high carrier mobility were synthesized by using a Negishi reagent.
Synthesis of polysubstituted acenes
![Synthesis of polysubstituted acenes](../../img/product/catalysts/formula08_en.png)
![](../../img/product/catalysts/formula09.png)
Substance | Zirconocene Chloride Hydride(Schwartz Reagent) |
---|---|
Formula | [(C5H5)2ZrHCl] |
CAS No. | 32342-97-5 |
Applications | Organic Synthesis |
Nickel Complex
![Bis (1,5-cyclooctadiene)nickel(0)](../../img/product/catalysts/formula10.png)
Substance | Bis(1,5-cyclooctadiene)nickel(0) |
---|---|
Formula | [(C8H12)2Ni |
CAS No. | 1295-35-8 |
Applications | Catalyst / Organic Synthesis |
Nickel phosphine complex
![Dichlorobis (triphenylphosphine) nickel(Ⅱ)](../../img/product/catalysts/formula11.png)
Substance | Dichlorobis (triphenylphosphine) nickel(Ⅱ) |
---|---|
Formula | [(C6H5)3P]2NiCl2 |
CAS No. | 14264-16-5 |
Application | Catalyst for cross-coupling of Grignard reagents |
![1,3-Bis(diphenylphosphino)ethane] nickel(Ⅱ) Dichloride](../../img/product/catalysts/formula12.png)
Substance | 1,3-Bis(diphenylphosphino)ethane] nickel(Ⅱ) Dichloride |
---|---|
Formula | {[(C6H5)2P]2(CH2)3}NiCl2 |
CAS No. | 15629-92-2 |
Application | Catalyst for cross-coupling of Grignard reagents (By using an uncommon ligand, it can also be used for asymmetric Grignard coupling reactions.) |
![1,2-Bis(diphenylphosphino)ethane] nickel(Ⅱ) Dichloride](../../img/product/catalysts/formula13.png)
Substance | 1,2-Bis(diphenylphosphino)ethane] nickel(Ⅱ) Dichloride |
---|---|
Formula | {[(C6H5)2P]2(CH2)2}NiCl2 |
CAS No. | 14647-23-5 |
Applications | Catalyst for cross-coupling of Grignard reagents (By using an uncommon ligand, it can also be used for asymmetric Grignard coupling reactions.) |
Synthesis of prototypes is available upon request.
Metal Carboxylate
Metal Oxide Thin Film
![Metal Oxide Thin Film](../../img/product/catalysts/photo1.jpg)
GO (Gallium Oxide)
20µm、Ra:0.26nm
ITO (Indium Tin Oxide)
PZT (Titanium Zirconium Lead Oxide)
STO(SrTiO3)
·Y(CF3COO)3 | Yttrium trifluoroacetate |
---|---|
·Ba(CF3COO)2 | Barium trifluoroacetate |
·Cu(CF3COO)2 | Copper trifluoroacetate |
(Applications) Superconducting Thin Films |
Raw Materials for Metal Oxide Thin Films
*The substances in bold letters in the figure are the substances that can be offered. Contact a Nichia representative to inquire about a prototype synthesis.