For research and development scientists pushing the boundaries of energy storage, understanding the fundamental properties of key materials is essential. Triethylmethylammonium Tetrafluoroborate (TEMA BF4), identified by CAS number 69444-47-9, is a sophisticated quaternary ammonium salt that plays a pivotal role in enhancing the efficiency of modern supercapacitors. Its unique chemical and physical attributes make it a preferred choice for cutting-edge electrolyte formulations. As a specialty chemical manufacturer, we provide this vital ingredient for scientific advancement.

The performance of a supercapacitor is intrinsically linked to the electrolyte's ability to facilitate rapid ion transport and withstand demanding electrical conditions. TEMA BF4 excels in this regard due to its molecular structure. A key advantage lies in its balanced cation and anion radii, which contribute to excellent solubility and a high electrochemical decomposition voltage. This balance is often superior to alternatives like tetraethylammonium tetrafluoroborate, offering R&D professionals a more robust material for their designs. When developing new capacitor technologies, the ability to buy and test such advanced compounds is critical.

Furthermore, the physical properties of TEMA BF4 are highly advantageous. Its remarkably high melting point, around 320°C, means that electrolytes formulated with it can operate reliably across a wider temperature spectrum. This stability is crucial for applications where devices might be exposed to extreme heat or cold. The inherent chemical stability of the molecule also ensures a longer lifespan for the supercapacitor, as it resists degradation under continuous charge and discharge cycles. For scientists focused on long-term performance, this is a significant benefit.

The resulting electrolytes from TEMA BF4 incorporation exhibit significantly improved electrical conductivity and a more stable electric double layer. This leads to lower leakage currents, a critical parameter for energy efficiency and device reliability. These characteristics are precisely what researchers seek when aiming to improve charge-discharge rates and overall energy density in supercapacitor designs. For any scientist looking to optimize their electrochemical devices, sourcing TEMA BF4 from a reputable supplier like ours ensures access to a material that consistently meets high-purity standards (≥99.0%).

The scientific community's adoption of TEMA BF4 underscores its importance in advancing supercapacitor technology. Its contribution to enhanced thermal stability, electrochemical performance, and overall device reliability makes it a cornerstone material for future energy solutions. We are proud to supply this advanced electrolyte salt, empowering innovators to create the next generation of high-performance energy storage devices. For bulk inquiries or technical consultation on how to best utilize this compound in your research, our team is ready to assist.