Description
Specifications Table
Product Name – Buffer solution (phosphate), pH 7 BAKER ANALYZED™ reagent
Quantity/Pack Size – 500 ml
Form – Liquid
Grade – Reagent
Application – pH calibration, biochemical assays, molecular biology
Product Overview
This phosphate buffer solution (pH 7) from BAKER ANALYZED™ is a reagent-grade formulation designed for consistent pH stabilization in laboratory applications. The buffer maintains a stable pH of 7.0, making it ideal for experiments requiring neutral conditions, such as enzymatic reactions, protein studies, and cell culture work. Its high-purity composition minimizes interference, ensuring accurate and reproducible results. The solution is prepared using analytical-grade salts and deionized water, adhering to strict quality control standards. This buffer is compatible with most aqueous-based protocols and can be used directly or diluted as needed. The 500 ml pack size offers convenience for frequent use while maintaining cost efficiency. Its long shelf life and stable formulation reduce the need for frequent replacements, making it a reliable choice for routine and specialized laboratory procedures.
FAQs
1. What is the shelf life of this phosphate buffer solution?
When stored unopened at room temperature, this buffer solution remains stable for up to 24 months from the date of manufacture.
2. Can this buffer be autoclaved for sterilization?
Yes, this phosphate buffer solution can be autoclaved at 121°C for 15 minutes without significant pH changes.
3. Is this buffer compatible with cell culture applications?
The solution is suitable for most cell culture applications, but we recommend checking for specific cell line requirements before use.
4. What is the recommended storage condition for this buffer?
Store the buffer at room temperature (15-25°C) in its original container, protected from direct sunlight and moisture.
5. Does this buffer contain any preservatives or additives?
This is a pure phosphate buffer formulation without added preservatives, making it ideal for sensitive applications where additives might interfere.
