Titanium Dioxide Acetic Acid Citric Acid Sodium Hydroxide Oxalic Acid Ethyl Acetate

All Categories

Encyclopedia |

Market Inquiry|

Supplier|

About Globalchemx

Otera’s Catalyst

CAS No.: 95971-03-2

Formula: C36H56N4O2S4Sn4

Molecular Weight: 1179.92000

Suppliers: All(0) China Suppliers(0) Products(0)

Description
Basic Info
Price

What is Otera’s Catalyst

**Introduction to Otera’s Catalyst** Otera’s Catalyst is a cutting-edge solution designed to revolutionize chemical processing with unparalleled efficiency and sustainability. Leveraging advanced catalytic technology, it accelerates reactions while minimizing energy consumption and waste, making it ideal for industries like petrochemicals, pharmaceuticals, and renewable energy. Its proprietary formulation ensures high selectivity and durability, reducing operational costs and environmental impact. Whether optimizing existing processes or enabling innovative pathways, Otera’s Catalyst delivers consistent performance under demanding conditions. Backed by rigorous research and scalable production, it represents the future of greener, smarter chemistry. Discover how Otera’s Catalyst can transform your operations—combining innovation, reliability, and sustainability in one powerful solution. (100 words)

Preparation Process: Otera’s Catalyst (dibutyltin dimethoxide) is prepared as follows: 1. **Materials**: Equimolar amounts of dibutyltin oxide (DBTO) and methanol are used. 2. **Reaction**: DBTO is dissolved in anhydrous methanol under nitrogen atmosphere. 3. **Heating**: The mixture is refluxed at 65–70°C for 12–24 hours with stirring. 4. **Distillation**: Excess methanol is removed under reduced pressure. 5. **Purification**: The residue is dried under vacuum to yield pure dibutyltin dimethoxide as a colorless liquid or solid. 6. **Storage**: The catalyst is stored under inert conditions to prevent hydrolysis. The process ensures high yield and purity.

Usage Scenarios: Otera’s Catalyst, a tin-based compound (dibutyltin oxide), is primarily used in transesterification and esterification reactions in organic synthesis. It efficiently promotes the conversion of esters, facilitating the production of biodiesel, polyesters, and other ester derivatives. The catalyst is valued for its high activity, selectivity, and mild reaction conditions, reducing energy consumption and byproduct formation. It is also employed in silicone and polymer industries for cross-linking and curing processes. Additionally, Otera’s Catalyst aids in the synthesis of pharmaceuticals and fine chemicals, offering precise control over reaction pathways. Its low toxicity and stability make it a preferred choice in industrial and laboratory applications.

Otera’s Catalyst Basic Info

Chemical Name Otera’s Catalyst

Synonyms Otera's catalyst

CAS No. 95971-03-2

Molecular Formula C36H56N4O2S4Sn4

Molecular Weight 1179.92000

PSA 196.26000

LogP 10.63220

Otera’s Catalyst Price

1. United States: $50 - $200
2. China: $40 - $180
3. Russia: $60 - $220
4. Germany: $55 - $210
5. India: $30 - $150
6. Japan: $70 - $250
7. Brazil: $50 - $190
8. South Korea: $65 - $230
9. Philippines: $35 - $160
10. United Kingdom: $60 - $220
11. France: $55 - $210
12. Mexico: $45 - $180
13. Canada: $50 - $200
14. South Africa: $40 - $170
15. Egypt: $35 - $160
16. Turkey: $50 - $190
17. Thailand: $30 - $150
18. Indonesia: $35 - $160

Note: These are rough estimates and may vary based on market conditions, taxes, and import/export regulations. If no specific data is available, the ranges are based on regional trends.