Aure Chemical Delivers Excellence in Methyltributylammonium Triflimide (CAS 405514-94-5)
Aure Chemical is a premier global supplier of high-quality Methyltributylammonium Triflimide, commonly known by its chemical abbreviation [N(Bu)3Me][TFSI] or its full systematic name Tributylmethylammonium bis(Trifluoromethylsulfonyl)imide. Identified by its CAS number 405514-94-5, this compound is a highly versatile and well-regarded ionic liquid. As an ionic liquid, it typically exists as a clear, colorless to pale yellow liquid at room temperature, characterized by its unique properties such as negligible vapor pressure, non-flammability, excellent thermal stability, and high ionic conductivity. The combination of the bulky tributylmethylammonium cation and the highly stable bis(trifluoromethylsulfonyl)imide (TFSI) anion results in an ionic liquid with a broad electrochemical window and exceptional performance. [N(Bu)3Me][TFSI] is a critical component in advanced electrochemical devices, a superior solvent for various chemical processes, and a key element in green chemistry initiatives. Aure Chemical is committed to providing Methyltributylammonium Triflimide that meets stringent purity and performance requirements, ensuring consistent and reliable results for your most demanding industrial and research applications. Partner with us for a dependable supply of this cutting-edge ionic liquid.
Basic Information of Methyltributylammonium Triflimide
Methyltributylammonium Triflimide ([N(Bu)3Me][TFSI], CAS No. 405514-94-5) is meticulously produced and rigorously tested to meet stringent quality standards. We offer various grades to suit your specific application requirements:
| CAS No.: | 405514-94-5 |
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| Linear Formula: | N(C₄H₉)₃CH₃][N(SO₂CF₃)₂ |
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| Molecular Weight: | 522.61 |
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| Appearance: | Clear, colorless to pale yellow liquid. |
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| Melting Point: | 27°C |
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| Density: | 1.15 - 1.20 |
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| Solubility: | Immiscible with water; soluble in various organic solvents (e.g., acetonitrile, dichloromethane). |
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| Stability: | Excellent thermal stability; broad electrochemical window; hydrolytically stable. |
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| Purity: | Available in high purity grades (e.g., 99% min) for demanding electrochemical and synthetic applications. |
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| RIDADR: | UN 2811 6.1, 8/PG 3 |
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| Chemical Structure: |  |
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Our commitment to delivering high-purity [N(Bu)3Me][TFSI] ensures a reliable and efficient component for your critical processes, offering consistent quality for diverse energy storage, synthetic, and material science applications.
Primary Applications of Methyltributylammonium Triflimide ([N(Bu)3Me][TFSI])
Methyltributylammonium Triflimide's unique properties as an ionic liquid, including its non-volatility, thermal stability, and high ionic conductivity, make it an invaluable component in various advanced technological fields:
Electrolyte in Electrochemical Devices:
It is widely used as a key component in electrolytes for next-generation energy storage systems, including:
Lithium-Ion Batteries: Enhances performance and safety, particularly in formulations designed for high temperatures or specific ionic conductivities.
Supercapacitors: Contributes to improved energy density and cycle life due to its broad electrochemical window and stability.
Dye-Sensitized Solar Cells (DSSCs): Used as an electrolyte component to improve efficiency and stability.
Advanced Solvent for Chemical Processes:
[N(Bu)3Me][TFSI] serves as an environmentally benign and highly effective solvent for various chemical reactions and processes, including:
Catalysis: Provides a unique reaction medium that can enhance catalyst activity, selectivity, and recyclability, often replacing volatile organic solvents.
Separations: Used in liquid-liquid extraction, gas absorption, and other separation processes due to its tunable miscibility and ability to selectively dissolve target compounds.
Electrodeposition: Enables the electrodeposition of various metals and metal alloys with improved morphology and properties.
Polymer and Material Science:
It is incorporated into polymer matrices to create ion-conducting polymer electrolytes for flexible electronics, sensors, and other advanced material applications where ion transport is crucial.
Analytical Chemistry:
Used as a specialized solvent in certain analytical techniques where its unique properties offer advantages over traditional solvents.
Why Choose Aure Chemical for Your Methyltributylammonium Triflimide Supply?
Aure Chemical is dedicated to providing superior chemical solutions and unparalleled customer support. By partnering with us for your [N(Bu)3Me][TFSI] requirements, you benefit from:
Exceptional Purity & Consistent Quality: Our Methyltributylammonium Triflimide is manufactured to stringent purity specifications, crucial for achieving optimal and reproducible performance in sensitive electrochemical devices and advanced chemical synthesis.
Reliable Global Supply Chain: We maintain a robust and efficient global supply network, guaranteeing timely and secure delivery of this essential ionic liquid to your facilities worldwide, with specialized packaging and handling expertise.
Expert Technical Support: Our dedicated team of specialists is readily available to offer comprehensive guidance on product application, safe handling, optimal storage, and usage in your specific energy storage or chemical processes, ensuring maximum efficiency and safety.
Commitment to Quality & Responsible Stewardship: We adhere to the highest industry standards for quality management, environmental responsibility, and product stewardship across all our operations, ensuring peace of mind for our clients and sustainable sourcing practices.
Customized Solutions: We understand that different applications may require specific purity levels. We are open to discussing customized solutions to meet your exact requirements.
Choose Aure Chemical for a trustworthy and dependable supply of high-quality Methyltributylammonium Triflimide ([N(Bu)3Me][TFSI]). We're ready to empower your innovations in energy storage, advanced materials, and sustainable chemistry with an unwavering commitment to quality and excellence.
Hazards Classification
GHS Classification: Acute Toxicity, Oral (GHS06), Skin Corrosion (GHS05), Environmental Hazard (GHS09)
Hazard Statements: Toxic if swallowed; causes severe skin burns and eye damage; toxic to aquatic life with long lasting effects.
UN Number: UN 2811
Hazard Class: 6.1 (Toxic substances), 8 (Corrosive substances)
Packing Group: III
GHS06: Acute toxicity
GHS05: Corrosive
GHS09: Environmental hazard
