Description
Specifications Table
Product Name – p-CHLORO-o-NITROANILINE 98% For Synthesis
Quantity/Pack Size – 250 g
Form – Solid
Grade – For Synthesis
Application – Organic synthesis, chemical research
Product Overview
p-Chloro-o-Nitroaniline 98% is a high-purity chemical reagent designed for synthesis applications, offering exceptional consistency in organic chemistry processes. This lab-grade compound features a chloro and nitro substitution on the aniline ring, providing unique reactivity for halogenation, nitration, and amine-based reactions. Its 98% purity ensures minimal impurities, reducing side reactions and improving yield predictability in experimental setups. The solid form allows for easy handling, precise weighing, and long-term stability under proper storage conditions. Compatible with standard organic solvents, it integrates seamlessly into multi-step synthesis protocols. Researchers benefit from its reliable performance in derivatization reactions, where the combined electron-withdrawing effects of the chloro and nitro groups enable selective transformations. The compound’s stability under typical lab conditions makes it a dependable choice for repetitive experimental workflows, while its well-documented spectral properties facilitate straightforward characterization via NMR, IR, or mass spectrometry. Whether used as a building block or intermediate, this reagent maintains batch-to-batch uniformity, supporting reproducible results in demanding research environments.
FAQs
1. What is the melting point range for p-Chloro-o-Nitroaniline?
The melting point typically falls between 108–112°C, though slight variations may occur depending on the specific batch and purity level.
2. Can this compound be used in aqueous solutions?
It has limited solubility in water but dissolves well in organic solvents like ethanol, acetone, or dimethylformamide for reaction setups.
3. Are there any known incompatibilities with other reagents?
Avoid strong oxidizing agents and reducing metals, as they may cause violent reactions or decomposition under certain conditions.
4. How should this chemical be stored for long-term use?
Store in a tightly sealed container, protected from light and moisture, at room temperature in a well-ventilated area away from ignition sources.
5. What analytical techniques confirm its purity?
Purity is commonly verified using HPLC, GC-MS, or elemental analysis, with spectral data (NMR, IR) providing structural confirmation.
