Specifications Table

Product Name – N-(2-AMINOETHYL) ETHANOLAMINE 98%
Quantity/Pack Size – 500 ml, 2500 ml
Form – Liquid
Grade – Laboratory Grade (98% Purity)
Application – Organic synthesis, buffer preparation, chemical derivatization

Product Overview

N-(2-Aminoethyl) Ethanolamine 98% is a high-purity, bifunctional amine-alcohol compound widely used in laboratory settings for its versatility in organic synthesis and chemical modifications. This laboratory-grade reagent features a minimum assay of 98%, ensuring minimal impurities and consistent performance in sensitive applications. Its unique structure, combining primary amine and hydroxyl groups, makes it an excellent choice for derivatization reactions, buffer systems, and as a building block in pharmaceutical intermediates. The liquid form allows for easy handling and precise dosing, while its stability under standard storage conditions ensures long shelf life without degradation. Compatible with most organic solvents and aqueous systems, this chemical maintains its integrity across a broad pH range, making it suitable for diverse experimental protocols. Whether used as a nucleophile in substitution reactions or as a chelating agent, its high purity guarantees reproducible results in research and development workflows.

FAQs

1. What is the shelf life of N-(2-Aminoethyl) Ethanolamine 98% when stored properly?

When stored in a tightly sealed container at room temperature, away from moisture and direct sunlight, this product retains its specified purity for up to 24 months from the date of manufacture.

2. Can this chemical be used directly in aqueous solutions without further purification?

Yes, the 98% purity grade is suitable for direct use in most aqueous applications, though additional filtration may be recommended for highly sensitive analytical techniques to remove potential particulate matter.

3. What are the recommended storage conditions to maintain stability?

Store in a cool, dry place with the container tightly closed. Avoid exposure to air and humidity, as the hygroscopic nature of the compound may lead to moisture absorption over prolonged periods.

4. Is this product compatible with common laboratory glassware and plastic containers?

The chemical is compatible with borosilicate glass and HDPE or PTFE containers. Avoid prolonged contact with metals or low-density polyethylene, as these may react or degrade over time.

5. Are there any known alternatives to this compound for similar applications?

Alternatives include Ethylenediamine or Diethanolamine, though these differ in functionality and reactivity. N-(2-Aminoethyl) Ethanolamine is preferred when both amine and hydroxyl groups are required in the same molecule.