Advanced Ionic Liquid Gel Electrode for In Vivo Brain Monitoring
Discover a revolutionary implantable electrochemical sensor designed for precise in vivo monitoring of brain chemistry, offering unparalleled stability and selectivity.
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1-Butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide
This advanced ionic liquid, offered by NINGBO INNO PHARMCHEM CO.,LTD., is the foundation for a groundbreaking implantable ionic liquid gel (ILG) microelectrode. Engineered for exceptional performance, it serves as a crucial component in developing sophisticated biosensing systems for in vivo applications. As a leading supplier in China, we provide high-quality materials that drive innovation in neurochemical monitoring.
- Achieve unparalleled stability in demanding in vivo brain monitoring tasks with this high-performance ionic liquid.
- Benefit from superior anti-biofouling properties, ensuring prolonged and reliable sensor function in complex biological environments.
- Leverage the material's excellent selectivity for K+ detection, a critical factor for understanding neurological events and conditions.
- Explore the potential of ion transfer sensing for accurate measurements, enabling new frontiers in neurochemistry and diagnostics.
Advantages Provided by the Product
Enhanced In Vivo Stability
The unique ionic liquid gel formulation, based on 1-butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide, offers exceptional mechanical stability, preventing leakage and ensuring consistent performance during long-term brain implantation for precise K+ detection.
Superior Anti-Biofouling
Designed to resist protein adsorption, this electrode maintains signal integrity even after prolonged exposure to biological fluids, a critical attribute for reliable in vivo brain monitoring and accurate ion transfer sensing.
High Selectivity and Sensitivity
When coupled with specific ionophores, the material facilitates highly selective K+ transfer, achieving sensitive detection even in the presence of interfering ions, crucial for studying hyperkalemia models.
Key Applications
Neurochemical Sensing
Utilize this advanced ionic liquid for developing sensitive electrochemical sensors capable of in vivo monitoring of ion concentrations in the brain, aiding in the study of neurological disorders.
Electrochemical Separation
Explore its utility in chemical separation processes, leveraging its unique ionic properties for efficient and selective separations in various chemical applications.
Catalysis in Reactions
Investigate its role as a catalyst in chemical reactions, benefiting from its excellent solvent properties and conductive nature for optimized reaction pathways.
Biocompatible Implants
Its biocompatibility and stability make it ideal for integration into implantable devices, enabling long-term monitoring and diagnostics within biological systems.