Preservatives(food)
Flavor Enhancers
Acidulants
Sweeteners
Antioxidants
Colorants(food)
Nutraceutical Ingredients (food)
Nutrient Supplements
Emulsifiers
Collectors
Dust Suppressants
Explosives and Blasting Agents
Flocculants and Coagulants
Frothers
Leaching Agents
pH Modifiers
Precious Metal Extraction Agents
Antioxidants(plastic)
Colorants (Pigments, Dyes)
Fillers and Reinforcements
Flame Retardants
Monomers
Plasticizers
Polymerization Initiators
Stabilizers (UV, Heat)
Antifoaming Agents
Chelating Agents
Coagulants and Flocculants
Corrosion Inhibitors
Disinfectants and Biocides
Oxidizing Agents
pH Adjusters
Scale Inhibitors( water)
Antioxidants(cosmetic)
Emollients
Fragrances and Essential Oils
Humectants
Preservatives
Surfactants(cosmetic)
Thickeners
UV Filters
Fertilizers
Soil Conditioners
Plant Growth Regulators
Animal Feed Additives
Biostimulants
Pesticides (Herbicides, Insecticides, Fungicides)
Active Pharmaceutical Ingredients (APIs)
Excipients
Solvents(pharmaceutical)
Antibiotics
Antiseptics and Disinfectants
Vaccine Adjuvants
Nutraceutical Ingredients (pharmaceutical)
Analgesics & Antipyretics
Analytical Reagents
Solvents(lab)
Chromatography Chemicals
Spectroscopy Reagents
microbiology-and-cell-culture-reagents
Molecular Biology Reagents
Biochemical Reagents
Inorganic and Organic Standards
Laboratory Safety Chemicals
Specialty Laboratory Chemicals(Special Laboratory Equipment)
Demulsifiers
Hydraulic Fracturing Fluids
Scale Inhibitors(oil)
Surfactants(oil)
Drilling Fluids
Dyes and Pigments
Bleaching Agents
Softening Agents
Finishing Agents
Antistatic Agents
Admixtures
Waterproofing Agents
Sealants and Adhesives
Curing Compounds
Concrete Repair Chemicals
Anti-Corrosion Coatings
Surfactants(cleaning)
Builders
Enzymes
Solvents (Cleaning)
Fragrances
Electronic Chemicals
Catalysts
Lubricants
Photographic Chemicals
Refrigerants
Automotive chemicals
Pyrotechnic Chemicals
Biodegradable Surfactants
Bio-based Solvents
Renewable Polymers
Carbon Capture Chemicals
Wastewater Treatment Chemicals
Pigments
Solvents(paint)
Specialty Coatings
Binders/Resins
Additives
Driers
Anti-Corrosion Agents
Functional Coatings
Application-Specific Coatings
Fresh Herbs
Ground Spices
Whole Spices
Spice Blends
Dried Herbs
Leavening Agents
Dough Conditioners
Flour Treatments
Fat Replacers
Decoratives
Preservatives(baking)
Plasticizers & Softeners
Reinforcing Agents
Adhesion Promoters
Vulcanizing Agents
Antidegradants
Blowing Agents
Fillers & Extenders
Accelerators & Retarders
Ferric Chloride Anhydrous Extra Pure
$ 17.20
Whatsapp Order
Ferric Chloride Anhydrous Extra Pure is a highly refined, moisture-free compound composed of iron and chlorine (FeCl₃). In laboratory settings, it is widely used as a reagent for detecting phenols and as an etching agent for metals, especially in printed circuit board (PCB) production. Its strong oxidizing properties also make it suitable for redox reactions, qualitative analysis, and inorganic synthesis. This extra pure grade ensures minimal impurities, making it ideal for precise and controlled chemical experiments.
Description
Ferric Chloride Anhydrous Extra Pure
Primary Uses
- Etching agent for metals (especially copper):
Widely used in PCB (printed circuit board) fabrication and metallography to etch copper and other metals. - Precipitating agent in chemical analysis:
Reacts with various anions (e.g., phosphate, carbonate) to form characteristic precipitates, aiding in qualitative analysis. - Test for phenols (Ferric Chloride test):
Produces a violet, green, or blue color when reacted with phenol compounds, useful in organic compound identification. - Catalyst in organic synthesis:
Acts as a Lewis acid catalyst in reactions such as chlorination of aromatic compounds and Friedel–Crafts reactions.
Secondary Uses
- Coagulant in water treatment simulations:
Demonstrates coagulation and flocculation processes in environmental science labs. - Oxidizing agent in redox experiments:
Instructive in redox titrations or demonstrations involving electron transfer. - Preparation of iron complexes in coordination chemistry:
Used in synthesis of iron-based coordination compounds for educational or research purposes. - Pigment formation studies:
Useful in reactions forming iron-based pigments (e.g., Prussian blue).
Additional information
| PACK SIZE |
500 grams Plastic Tin |
|---|
KEY PRODUCT FEATURES
1. Basic Identification Attributes
- Chemical Name: Ferric Chloride Anhydrous
- Synonyms: Iron(III) chloride, Iron trichloride
- Chemical Formula: FeCl₃
- Molecular Weight: 162.2 g/mol
- Grade: Extra Pure (Laboratory Reagent Grade)
- Appearance: Dark brown to black crystalline solid with pungent odor
2. Physical & Chemical Properties
- Melting Point: ~306 °C
- Boiling Point: ~316 °C (sublimes)
- Solubility: Reacts violently with water, forming hydrochloric acid and ferric hydroxide
- Hygroscopic: Yes
- Odor: Sharp, acrid
3. Safety & Hazard Attributes
- GHS Classification:
- Corrosive to skin and eyes (Category 1)
- Acute toxicity (Oral, Category 4)
- Environmental hazard (Aquatic Chronic, Category 2)
- Hazard Statements:
- H302: Harmful if swallowed
- H314: Causes severe skin burns and eye damage
- H411: Toxic to aquatic life with long lasting effects
- PPE Requirements:
- Chemical-resistant gloves (nitrile)
- Goggles or face shield
- Lab coat
- Use in fume hood or well-ventilated area
- First Aid Measures:
- Inhalation: Move to fresh air; seek medical help
- Skin Contact: Rinse with water for 15 minutes
- Eye Contact: Flush with water immediately, get medical attention
- Ingestion: Do not induce vomiting; rinse mouth and seek medical attention
4. Storage & Handling Attributes
- Storage Conditions:
- Store in tightly sealed, non-metallic container
- Keep in cool, dry area away from moisture
- Avoid contact with metals and reducing agents
- Handling Notes:
- Handle in dry atmosphere (moisture-sensitive)
- Do not allow contact with skin or eyes
- Avoid generating dust
5. Regulatory & Compliance Attributes
- CAS Number: 7705-08-0
- EC Number: 231-729-4
- UN Number: UN 1773
- Hazard Class: 8 (Corrosive substances)
- Packaging Group: III
6. Laboratory Applications
- Primary Uses:
- Etching agent for metals (especially copper in PCB manufacturing)
- Precipitating agent in water and wastewater treatment
- Catalyst in organic synthesis
- Chlorination and oxidation reactions
- Secondary Uses:
- Laboratory testing of phenols and other aromatic compounds
- Preparation of ferric salts
- Educational demonstrations of hygroscopic and exothermic reactions
SAFETY HANDLING PRECAUTIONS
SAFETY PRECAUTIONS
- Corrosive – can cause severe skin and eye burns
- Releases HCl fumes upon contact with moisture
- Use gloves, eye protection, and lab coat
- Work in a well-ventilated area or fume hood
Storage:
- Store in tightly sealed containers in a cool, dry place
- Protect from moisture and humidity
FIRST AID MEASURES
- Inhalation: Move to fresh air, seek medical help if breathing is difficult
- Skin/Eye Contact: Flush immediately with water for at least 15 minutes; remove contaminated clothing
- Ingestion: Rinse mouth, do not induce vomiting—seek immediate medical attention
Related products
Acetone Extra Pure
Acetone Extra Pure is a highly volatile, flammable, and colorless liquid widely used as a powerful solvent in laboratory and industrial applications. Known for its exceptional ability to dissolve a wide range of substances, it is commonly employed for cleaning laboratory glassware, thinning resins, and removing organic residues. In the cosmetics and pharmaceutical industries, acetone is used in nail polish removers and formulation processes. Its high evaporation rate and purity make it suitable for analytical procedures and synthesis work, especially where contaminant-free solvents are essential. With a distinct odor and low boiling point, Acetone Extra Pure is an indispensable reagent for both routine and specialized chemical operations.
Aluminium Chloride Hydrated Extra Pure
Aluminium Chloride Hydrated Extra Pure is a high-purity, white to pale yellow crystalline compound containing bound water molecules, making it less reactive than its anhydrous counterpart but still highly effective in various laboratory applications. It is commonly used in aqueous-phase reactions, coordination chemistry, and as a reagent for studying aluminum ion behavior in solution. The hydrated form offers enhanced stability and ease of handling, making it suitable for educational experiments, buffer formulations, and inorganic synthesis where precise aluminum content is required. Its extra pure grade ensures minimal interference from impurities, supporting accurate and reproducible results in analytical and research settings. Proper storage in a cool, dry place is essential to prevent further hydration or contamination.
Aluminium Ferric Sulphate Extra Pure
Aluminium Ferric Sulphate Extra Pure is a high-purity, yellowish to light brown crystalline solid composed of aluminum, iron, and sulfate ions, commonly used in laboratory settings for analytical, coordination, and inorganic chemistry research. Its dual-metal composition makes it valuable for studying metal ion interactions, flocculation processes, and as a reagent in qualitative analysis of phosphates and tannins. The compound also finds application in preparing standard solutions and in experiments related to coagulation and sedimentation. Its extra pure grade ensures consistent performance with minimal contamination, making it ideal for precise, controlled experimentation. It should be stored in tightly sealed containers in a dry, cool environment to maintain stability and prevent moisture uptake.
Aluminium Nitrate Extra Pure
Aluminium Nitrate Extra Pure is a high-purity, white crystalline compound that is highly soluble in water and widely used in laboratory chemistry for analytical, synthesis, and research purposes. It serves as a reliable source of aluminum ions in solution, making it valuable in qualitative analysis, coordination chemistry, and materials science studies. This compound is often utilized in the preparation of other aluminum salts, as a nitrating agent, and in controlled oxidation reactions. Its extra pure grade guarantees minimal interference from contaminants, ensuring accurate, reproducible results in sensitive experimental work. Aluminium Nitrate should be stored in tightly sealed containers, away from moisture and incompatible substances, due to its oxidizing nature and hygroscopicity.
Aluminium Oxide Extra Pure
Aluminium Oxide Extra Pure is a high-purity, white, odorless crystalline powder widely used in laboratory applications for its chemical stability, hardness, and high melting point. It serves as a reliable reagent in inorganic synthesis, a polishing and grinding medium in sample preparation, and a support material for catalysts in chemical reactions. This form of alumina is also used in adsorption studies, ceramic research, and as a desiccant in controlled drying processes. Its extra pure grade ensures minimal contamination, making it suitable for sensitive analytical work and high-precision experiments. For optimal performance, it should be stored in a dry, tightly sealed container to prevent moisture absorption and maintain its physical integrity.
Ammonium Formate Extra Pure
Ammonium Formate Extra Pure is a high-purity, white crystalline compound commonly used in laboratory chemistry as a buffering agent, reducing agent, and reagent in organic synthesis. It plays a significant role in catalytic hydrogenation reactions, particularly in transfer hydrogenation using palladium or platinum catalysts. In analytical chemistry, it is frequently used in HPLC and mass spectrometry applications due to its volatility and compatibility with aqueous and organic mobile phases. The extra pure grade ensures extremely low levels of impurities, making it suitable for high-precision and instrument-sensitive applications. It should be stored in a cool, dry, and tightly sealed container to preserve its stability and prevent moisture uptake.
Ammonium II Sulphate Extra Pure
Ammonium II Sulphate Extra Pure, commonly known as ammonium sulfate ((NH4)2SO4)(\text{(NH}_4)_2\text{SO}_4)((NH4)2SO4), is a high-purity, white crystalline solid widely used in laboratory settings for biochemical, analytical, and inorganic chemistry applications. It is especially valued for protein precipitation and purification through salting-out techniques due to its high solubility and ability to stabilize proteins. Additionally, it serves as a reliable source of nitrogen and sulfate ions in analytical reactions and standard solution preparations. The extra pure grade ensures minimal interference from contaminants, making it ideal for sensitive experimental procedures. It should be stored in a cool, dry place in well-sealed containers to prevent moisture absorption and caking.
Barium Hydroxide Hydrate Extra Pure
Barium Hydroxide Hydrate Extra Pure is a high-purity, white crystalline compound containing eight molecules of water of crystallization. It is widely used in laboratory chemistry as a strong base in titration, qualitative analysis, and inorganic synthesis. Its high solubility in water and strong alkalinity make it valuable for neutralization reactions, preparation of barium salts, and as a reagent for detecting sulfates, carbonates, and phosphates. In analytical applications, it is often used where precise pH control and minimal contamination are critical. The extra pure grade ensures consistent performance in high-accuracy experiments. It should be handled with care and stored in a tightly sealed container in a cool, dry place, as it is caustic and sensitive to carbon dioxide in the air, which can lead to carbonate formation.
