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Atomfair Tetrafluoroborate BF4- BF4-

Description Tetrafluoroborate (BF4SUB_SUP_1 ) is a non-coordinating anion widely used in electrochemical and synthetic applications due to its high chemical stability and weak nucleophilic properties. This inorganic compound is available in high-purity form, making it ideal for advanced research in lithium-ion batteries, ionic liquids, and catalysis. Its exceptional solubility in organic solvents and resistance to oxidation/reduction make it a preferred choice for electrolyte formulations. Tetrafluoroborate is rigorously tested to meet analytical standards, ensuring consistency for laboratory and industrial use. Suitable for use in electroplating, polymer chemistry, and as a counterion in organometallic synthesis.

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Description

Description

Tetrafluoroborate (BF4) is a non-coordinating anion widely used in electrochemical and synthetic applications due to its high chemical stability and weak nucleophilic properties. This inorganic compound is available in high-purity form, making it ideal for advanced research in lithium-ion batteries, ionic liquids, and catalysis. Its exceptional solubility in organic solvents and resistance to oxidation/reduction make it a preferred choice for electrolyte formulations. Tetrafluoroborate is rigorously tested to meet analytical standards, ensuring consistency for laboratory and industrial use. Suitable for use in electroplating, polymer chemistry, and as a counterion in organometallic synthesis.

  • CAS No: 129211-47-8
  • Molecular Formula: BF4-
  • Molecular Weight: 86.81
  • Exact Mass: 87.0029178
  • Monoisotopic Mass: 87.0029178
  • Charge: -1
  • IUPAC Name: tetrafluoroborate
  • SMILES: [B-](F)(F)(F)F
  • Synonyms: Tetrafluoroborate, Fluoborate, 14874-70-5, fluoroborate, tetrafluoroborate(1-)

Application

Tetrafluoroborate is commonly employed as a supporting electrolyte in electrochemical studies due to its inertness and wide potential window. It serves as a key component in ionic liquids for battery applications, enhancing conductivity and stability. Researchers also utilize it as a non-coordinating counterion in catalysis and organometallic chemistry to prevent interference with reactive centers.

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