Ethyl cis-3-tributylstannyl-2-propenoate

95%

Reagent Code: #88818
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CAS Number 82101-76-6

science Other reagents with same CAS 82101-76-6

blur_circular Chemical Specifications

scatter_plot Molecular Information
Weight 389.16 g/mol
Formula C₁₇H₃₄O₂Sn
inventory_2 Storage & Handling
Storage room temperature, dry

description Product Description

This chemical is primarily utilized in organic synthesis, particularly in the formation of carbon-carbon bonds through Stille coupling reactions. It acts as a key intermediate in the production of complex organic molecules, including pharmaceuticals, agrochemicals, and advanced materials. Its role in cross-coupling reactions enables the construction of carbon frameworks with high precision, making it valuable in the development of bioactive compounds and functional materials. Additionally, it is employed in research settings for the synthesis of conjugated systems, which are essential in the design of organic electronic devices such as OLEDs and solar cells.

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Test Parameter Specification
Purity 94.5-100
Infrared Spectrum Conforms to Structure

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Size Availability Unit Price Quantity
inventory 250mg
10-20 days ฿15,900.00

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Ethyl cis-3-tributylstannyl-2-propenoate
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This chemical is primarily utilized in organic synthesis, particularly in the formation of carbon-carbon bonds through Stille coupling reactions. It acts as a key intermediate in the production of complex organic molecules, including pharmaceuticals, agrochemicals, and advanced materials. Its role in cross-coupling reactions enables the construction of carbon frameworks with high precision, making it valuable in the development of bioactive compounds and functional materials. Additionally, it is employed

This chemical is primarily utilized in organic synthesis, particularly in the formation of carbon-carbon bonds through Stille coupling reactions. It acts as a key intermediate in the production of complex organic molecules, including pharmaceuticals, agrochemicals, and advanced materials. Its role in cross-coupling reactions enables the construction of carbon frameworks with high precision, making it valuable in the development of bioactive compounds and functional materials. Additionally, it is employed in research settings for the synthesis of conjugated systems, which are essential in the design of organic electronic devices such as OLEDs and solar cells.

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