Description
Specifications Table
Product Name – Buffer solution, pH 3.00 (±0.01 @ 25°C), No Color, Specpure®, NIST Traceable
Quantity/Pack Size – 550 ML
Form – Liquid
Grade – Specpure®, NIST Traceable
Application – pH meter calibration, analytical testing
Product Overview
This pH 3.00 buffer solution is a high-precision, NIST-traceable reference standard designed for accurate pH meter calibration and analytical applications. Formulated with Specpure® quality, it ensures minimal variability (±0.01 @ 25°C) and maintains stability without color interference, making it ideal for critical lab measurements. The solution is free from dyes or additives that could affect readings, providing reliable performance in research, quality control, and routine testing environments. Its 550 ML pack size offers sufficient volume for repeated use while minimizing waste. The NIST traceability guarantees compliance with international standards, ensuring consistency across experiments. Whether used in academic labs, industrial settings, or field testing, this buffer solution delivers dependable results for precise pH determinations.
FAQs
1. What is the shelf life of this pH 3.00 buffer solution?
The solution remains stable for 12 months from the date of manufacture when stored unopened at room temperature in its original container.
2. Can this buffer be used for calibrating all types of pH meters?
Yes, it is compatible with most laboratory-grade pH meters, including benchtop and portable models, provided they support pH 3.00 calibration points.
3. Is this buffer solution autoclavable?
No, autoclaving is not recommended as it may alter the pH value and compromise the solution’s accuracy.
4. How should I store this buffer solution after opening?
After opening, tightly recap the bottle and store it at room temperature, away from direct sunlight and moisture to prevent contamination.
5. Does this buffer contain any preservatives or stabilizers?
The solution is formulated without added preservatives, relying on its chemical composition for stability under proper storage conditions.
