High-Purity Tetrabutylphosphonium Bromide from Aure Chemical – Your Trusted Source
Tetrabutylphosphonium Bromide (TBPB) (CAS 3115-68-2) is a versatile quaternary phosphonium salt, widely recognized as a highly effective Phase-Transfer Catalyst (PTC). It typically appears as a white to off-white crystalline powder with minimal odor. Unlike the highly reactive tertiary phosphines, TBPB is a stable, non-volatile salt that efficiently transports anions (e.g., nucleophiles) from an aqueous or solid phase into an organic solvent phase. This capability significantly accelerates many difficult organic reactions by enabling reagents to meet and react faster. TBPB's robustness and thermal stability also make it a valuable precursor for preparing advanced ionic liquids.
Basic Information of TBPB
Meticulously produced and rigorously tested to meet stringent quality standards. We ensure exceptional purity and consistent performance, essential for your critical applications:
| CAS No.: | 3115-68-2 |
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| EC No.: | 221-487-8 |
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| Linear Formula: | C16H36BrP |
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| Molecular Weight: | 339.33 |
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| Appearance: | White to off-white crystalline powder |
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| Odor: | Little to none |
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| Melting Point: | 100-103 °C(lit.) |
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| Density: | 1.8[at 20℃] |
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| Solubility: | Insoluble in water; soluble in alcohol, oils, and most organic solvents. |
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| Flash Point: | 290 °C |
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| RIDADR: | UN 3464 6.1/PG 3 |
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| Chemical Structure: |  |
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Application Overview
TBPB's stability, low toxicity compared to other phosphonium salts, and powerful catalytic activity make it essential across diverse chemical and material science fields:
Phase-Transfer Catalysis (PTC): Its primary role is in enabling two-phase reactions, facilitating nucleophilic substitutions (e.g., converting alkyl halides to nitriles or thiocyanates), oxidation, reduction, and polymerization reactions by bridging incompatible solvent systems (aqueous/organic).
Ionic Liquid Precursor: The tetrabutylphosphonium cation is a key building block for synthesizing various room-temperature ionic liquids (ILs), where it imparts desirable properties like high thermal stability and low flammability to the resulting solvent.
Polymerization Catalyst/Modifier: Used as a catalyst or co-catalyst in the synthesis of specialized polymers (e.g., polycarbonates, polyesters), where it can influence molecular weight and improve reaction kinetics.
Nanomaterials Stabilization: Acts as a surface capping agent or stabilizing ligand for the preparation of certain metal nanoparticles, preventing aggregation and controlling size distribution.
Electrochemistry: Employed as a supporting electrolyte in non-aqueous electrochemical studies due to its high solubility in polar organic solvents and its large, non-coordinating cation.
Why Choose Aure Chemical for Tetrabutylphosphonium Bromide?
Aure Chemical offers TBPB (CAS 3115-68-2) with specialized quality assurance focused on maximizing its catalytic efficiency, thermal robustness, and purity.
High Catalytic Purity: We minimize the presence of residual water and inorganic salts (e.g., sodium bromide), which can interfere with the activity of the phosphonium cation. Our ultra-dry grade TBPB guarantees maximum catalytic efficiency, particularly in water-sensitive organic synthesis.
Consistent Particle Size Distribution (PSD): For solid-liquid PTC applications, the surface area is crucial. We offer TBPB with a verified, consistent PSD, ensuring reliable dissolution rates and predictable reaction kinetics, improving the scalability of your process.
Thermal Stability Certification: We provide thermal gravimetric analysis (TGA) data on every batch, certifying the material's decomposition temperature. This assurance is essential for customers utilizing TBPB in high-temperature polymerization or ionic liquid applications.
Simplified Logistics and Safety: As a stable, non-regulated solid (unlike its tertiary phosphine precursors), TBPB simplifies storage and handling. We provide specialized moisture-proof packaging to maintain its crystal integrity and ensure high activity upon arrival, offering peace of mind and simplified safety compliance.
Hazards Classification
GHS Classification: Acute Toxicity Oral (GHS06), Acute Toxicity Dermal (GHS07), Skin Irritation (GHS07), Eye Irritation (GHS07), Aquatic Chronic (GHS09)
Hazard Statements: Harmful if swallowed; Harmful in contact with skin; Causes skin irritation; Causes serious eye irritation; Harmful to aquatic life with long lasting effects.
UN Number: UN 3464
Hazard Class: 6.1 (Toxic substances)
Packing Group: III
GHS06: Acute toxicity
GHS07: Irritant
GHS09: Environmental hazard
