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  • PI13745 Ammonium Sodium Phosphate Dibasic Tetrahydrate Powder (CAS No.: 7783-13-3)

    • PI13745 Ammonium Sodium Phosphate Dibasic Tetrahydrate Powder (CAS No.: 7783-13-3)

    Catalogue Number PI13745
    Material Palladium
    CAS Number 7783-13-3
    Purity ≥99.9%
    Composition NaNH4HPO4 · 4H2O
    Form Wire
    Form Powder

    Ammonium Sodium Phosphate Dibasic Tetrahydrate Powder is a chemical reagent used in chemical synthesis that provides a controlled hydration state and defined composition. Stanford Advanced Materials (SAM) produces this reagent using analytical techniques such as ion chromatography and thermogravimetric analysis to monitor water content and purity. This approach ensures that the product meets the reproducibility requirements for synthesis processes.
    Related Products: Ammonia Borane, Lithium Ammonia Borane Powder, Ammonium Polyphosphate

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    FAQ

    How does the microstructural consistency of Palladium Wire impact its performance in electronic applications?

    Consistent microstructure in Palladium Wire reduces localised stress and improves conductivity, which is critical in high-frequency circuits. This uniformity minimises contact resistance and enhances operational reliability, particularly in environments where thermal fluctuations are common. Contact us for further technical insights.

    What are the key factors to consider when joining or welding Palladium Wire?

    Joining Palladium Wire requires controlled thermal conditions to prevent oxidation and maintain its ductile properties. Maintaining a clean environment and using proper flux enhances joint integrity. These measures ensure minimal performance degradation during subsequent processing steps.

    How should Palladium Wire be stored to maintain its surface quality?

    Store the wire in a clean, low-humidity environment and use anti-static, protective packaging to limit contamination. Proper storage prevents surface oxidation and mechanical damage, thereby preserving its conductivity and structural properties over time.

    How does the hydration water influence the stability of this compound?

    The tetrahydrate nature of the compound ensures a consistent water content that stabilises its crystal structure during handling and storage, which is vital for achieving reproducible outcomes in synthesis reactions.

    What role does the high purity level play in chemical synthesis applications?

    A purity level exceeding 98% minimises impurities that may interfere with reaction pathways, thus ensuring predictable chemical behaviour and consistent reaction kinetics in laboratory syntheses.

    Are there special storage conditions required to maintain its hydration state?

    Yes, storing the powder in a dry environment at room temperature with moisture-resistant packaging helps preserve its defined hydration state and prevents degradation or alteration of its chemical properties.

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