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- What is a Wetting Agent
- How to Use DMC Catalyst to Produce Polyether Polyols?
- What is Polyether Polyol
- The Properties of Bronopol
- Why Are Surfactants Used In Cleaning Products
- Characteristics of Alpha Olefin Sulfonate
- Difference Between Surfactant And Emulsifier
- Characteristics of China (3-Glycidoxypropyl)trimethoxysilane
- What Is The Chemical Action Of Surfactants In Shampoo
- Difference Between Ionic And Nonionic Surfactants
- What Is Potassium Iodide Used For
- Use Of Potassium Iodide In The Preparation Of Iodine Solution
- Foods That Have Potassium Iodide
- How Does Potassium Iodide Work
- Potassium Iodide Benefits
- Polyether Polyol Vs Polyester Polyol
- Polyether Polyol Manufacturing Process
- 2-Chloropropionic Acid
- Propionaldehyde
- How Is Ethyl Bromide Prepared From Ethyl Alcohol
- 2-Methylbutanoic Acid
- N-Vinyl-2-pyrrolidone
- Applications of N-Vinyl-2-pyrrolidone
- Benzalkonium Chloride
- How Is Ethyl Bromide Prepared From Ethyl Alcohol 2
- Glycolic Acid Cream Benefits
- Is Potassium Iodide Soluble?
- All About Surfactants And How To Choose A Mild Shampoo
- Sodium Laureth Sulfate Vs. Sodium Lauryl Sulfate
- Difference Between Sodium Laureth Sulfate And Sodium Lauryl Sulfate
- Difference Between Sulfate And Sulfonate In Shampoo
- Effect Of Calcium Propionate On The Shelf Life Of Bread
- Where Does Calcium Propionate Come From
- Sodium Propionate And Propanoic Acid
- What Does Non Ionic Surfactant Mean?
- Sodium Lauryl Sulfate In Cosmetics
- Cocamidopropyl Betaine In Skin Care
- Cocamidopropyl Betaine In Cosmetics
- The Exfoliant Effect Of Glycolic Acid
- Glycolic Acid In The Role Of Skin Care
- Calcium Propionate In Food
- Sodium Propionate In Food 2
- What Is The Role Of Potassium Iodide?
- If Potassium Iodide Becomes Potassium Iodate In Salt, Do You Dare To Eat Salt?
- The Application of Glycolic Acid in the Cosmetics Industry
- The Advantages of APG
- Introduction to the Basic Application of BETA-alanine
- BETA-Alanine Process Introduction
- What is Expandable Microsphere?
- What is GLycolic Acid?
- Market Application Direction of Glycolic Acid
- Preparation of Ethyl Iodide
- Monoammonium Glycyrrhizinate
- Application of Expandable Microspheres
- Application of Glycolic Acid in Boiler Cleaning
- Monoammonium Glycyrrhizinate (MAG)
- Preparation Of Ammonium Iodide
- What Is The Active Diluent Of Epoxy Resin?
- L-Hydroxyproline Benefits
- Methyl Iodide Residual
- Methyl Iodide Used in Pharmaceuticals
- Application of α-olefin Sulfonate
- Production and Function of Monoammonium Glycyrrhizinate
- Use of Polyether Polyol
- What Are the Advantages of DMC Catalyst?
- Methyl Iodide Fumigant
- Introduction to DMC Catalyst
- Application and Classification of Polyether Polyol
- Precautions for Propionyl Chloride
- Two Different Types of Anionic Surfactants
- It Turns Out that the Shampoo Contains Cocoamido Propil Betaina
- An Overview of Monoammonium Glycyrrhizinate
- Do You Know about Sodium Dodecyl Sulfate?
- Allyl Diglycol Carbonate is a Good Optical Resin Lens Material
- An Introduction of Hexyl Bromide
- An Overview of Amphoteric Surfactant
- An Introduction of Ethyl Iodide Cas No
- Application of 3-Methacryloxypropyltrimethoxysilane
- Applications of 3-(2,3-glycidoxy) Propyl Trimethoxysilane
- Introduction of 1-iodobutane
- The Latest Applications of 1,3-Propane Sultone
- Main Applications of Bronopol
- The Bactericidal and Antiseptic Effect of Bronopol
- What is the Glycolic Acid in Skin Care Products
- Have You Heard of Glycollic Acid Peeling?
- The Preparation Method of Bronopol
- DMC Catalyzes the Ring-opening Polymerization of Propylene Epoxide at Low Temperature
- The Preparation Technology and Storage Condition of Methyl Iodide
- What Chemicals Can the Ethyl Vinyl Ether React with
- What Do You Know about the Application of Glycolic Acid
- The Emergency Treatment of Methyl Iodide
- Application of Surfactants in the Petroleum Industry
- Anionic Surfactants for Cleaning
- Cationic Surfactants Commonly Used in Detergents
- Mild Action of Amphoteric Surfactants on the Skin
- The Development of New Surfactants Will Be a Trend
- Role And Types of Surfactants
- Principle of Surface Tension Reduction by Surfactants
- The Principle of Cationic Surfactants for Repairing Hair
- The Main Raw Materials for Synthesizing Polyether Polyol
- The Application of N-octyltriethoxysilane as the Impregnant
- The Analysis of the Factors Influencing the Odor Production of Polyether Polyol
- Main Characteristics of Polyether Polyol
- Cocoamido Propil Betaina in Cosmetics
- The Misunderstood "Hero": Bronopol
- Uses of Propionyl Chloride
- Preservative Effect of Cocoamido Propil Betaina
- By What Means Can Propionyl Chloride be Prepared?
- What Are the Main Applications of Polyether Polyol
- What Should Be Noticed When Using and Storing Propionyl Chloride?
- Special High-activity Polyether Polyol
- The Wide Use of Paraffin Wax
- 2-acetyl thiazole
- Fully Refined Paraffin Wax
- Classification of Paraffin
- Further Information about Characteristics of Expandable Microspheres Shoes
- Applications of Cinnamic Acid
- Expandable Microspheres Supplier - NCMC
- Six Characteristics of Expandable Microspheres Shoes
- N,N,N-Trimethyl-1-Ammonium Adamantane
- Ortho-cresol Formaldehyde Epoxy Resin
- Polyethyleneimine
- Glycolic Acid for Household Cleaning
- Application of Potassium Iodide in Medicine
- What Industries Can Expandable Microspheres Be Used?
- Application of Glycolic Acid in Leather Industry
- Amyl Salicylate
- Benzyl Bromide
- Composite Additive of Trace Elements
- Glutaraldehyde
- Hexyl Acetate
- Linear Alkyl Benzene(LAB)
- Lubricant Additive
- Myristoyl Chloride
- Styralyl Acetate
- Tetraethyl Ammonium Hydroxide Solution
- Tetrapropyl Ammonium Hydroxide Solution
- The Role of Dipotassium Glycyrrhizinate in Cosmetics
- Precautions for Using Mixed Methylpyridine
- Do You Know Ethyl Heptanoate? What Are the Effects of Ethyl Heptanoate?
- The Difference Between Nitrile Rubber and NBR Latex
- Characteristics and Application of Bronopol's Antibacterial and Antiseptic Effects
- Where Can Glycolic Acid Be Used?
- Application of Expandable Microspheres As Foaming Agents
- Where is Potassium Iodide Commonly Used?
- Glycolic Acid Improves the Efficiency of the Oil and Gas Industry
- Models and Characteristics of Carbopol
- What is the Role of Glycolic Acid?
- Analysis of the Significance of the Polyether Polyol Cas Number Technology
- Anionic Surfactant: LAS
- Glycolic Acid for Skin Care
- What Are the Uses of Glycyrrhizic Acid?
- The Role and Use Precautions of Acrylonitrile
- What Skin Type is Glycolic Acid Suitable For? How to Use?
- Benefits of Glycolic Acid for Skin
- What Are the Negative Effects of Glycolic Acid? Are There Any Precautions?
- The Effect of Glycolic Acid in Beauty and Skin Care
- Uses and Hazards of Bromopropane
- Learn About the Application and Storage of Allyl Alcohol
- Glycolic Acid and Its Benefits
- Application and Storage and Transportation Protection of Potassium Iodide
- Understanding the Preservative Properties of Sodium Propionate
- What Are the Main Applications of Sodium Propionate?
- Driving Innovation: Expandable Microspheres Producers in the Aerospace Industry
- Scaling Up Production: Challenges and Triumphs of Expandable Microspheres Producers
- The Role of Expandable Microspheres Producers in Medical Advancements
- What Are Anionic Wetting Agents and How Do They Work?
- Chemical Reactions and Mechanisms Involving 1,2-Epoxybutane
- Safety Precautions When Handling and Storing 1,2-Epoxybutane
- Factors Influencing the Selection of Anionic Wetting Agents
- Sustainable Approaches to Utilizing 1,2-Epoxybutane
- The Versatile Potential of 1,2-Epoxybutane in Medicinal Chemistry
- The Science Behind Wetting Agent Chemicals: Reducing Water Repellency
- Environmental Impact and Safety Considerations of Wetting Agent Chemicals
- Environmental Impact and Sustainability Considerations Associated With the Use of Expandable Microsp
- The Role of Expandable Microspheres in Biomedical Engineering
- Stability and Decomposition of 2-Methyl Butyric Acid Under Different Conditions
- Unraveling the Role of Wetting Agent Chemicals in Industrial Processes
- 1,2-Epoxybutane: a Key Intermediate in Bio-based Chemical Synthesis
- Safety Considerations Associated with 1,2-Epoxybutane
- The Biological Significance of 2-Methyl Butyric Acid in Metabolism
- The Versatility of 2-Methyl Butyric Acid in Pharmaceutical and Medical Applications
- Building Blocks of Innovation: 1,2-Epoxybutane in Modern Chemistry
- Ethylene Glycol's Crucial Role in Chemical Synthesis and Laboratory Processes
- Ethylene Glycol: Understanding Its Health Effects and Safety Measures for Proper Handling
- Exploring the Properties and Characteristics of Ethylene Glycol
- China Expandable Microsphere Foaming Agent
- Properties and Innovative Applications of China Expandable Microspheres
- Medical Breakthrough: Applications of Expandable Microspheres in Healthcare
- China Expandable Microspheres—A Multifunctional New Foaming Agent
- Applications of 1,2-Epoxybutane in the Petrochemical Field
- New Food Additive: Calcium Propionate
- The Latest Research Progress on 1,2-Epoxybutane
- Potential Biological and Toxicological Effects of 1,2-Epoxybutane
- Application of China Expandable Microspheres in Paper and Paperboard
- What Are the Uses of Glycolic Acid
- Monoammonium Glycyrrhizinate: The Healing Power of Nature
- Versatile Expandable Microspheres China
- Multifunctional Star in Detergents: China Amphoteric Surfactants
- Applications of Polyether Polyol CAS Number 9003-11-6
- Expandable Microspheres in China: Application in Leather Repair Paste
- Methyl Iodide Is an Important Chemical Reagent and Intermediate
- Commonly Used Amphoteric Surfactants in Detergents
- The Application of Hydroxyproline Skincare Products: From Ingredient Analysis to Efficacy Exploratio
- Production Technology and Applications of Polyol Chemicals
- Emulsifier Chemistry: Unveiling the Secrets of Emulsion Technology
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Features of Heptyl Bromide
-
Product Name: Heptyl Bromide
-
Chemical Formula: C7H15Br
-
CAS No.: 629-04-9
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Dangerous Grade: 3
Technical Data of Heptyl Bromide
|
Item
|
Method
|
Specification
|
Result
|
|
Appearance
|
Visual Test
|
Colorless clear liquid
|
Pass
|
|
Purity
|
Gas Chromatography
|
≥99.0%
|
99.36%
|
|
Moisture
|
Karl Fischer
|
≤500ppm
|
280ppm
|
|
PH Value
|
1:1
Water Solution
|
6.0-8.0
|
Pass
|
-
Physical State: Liquid
-
Color: colorless
-
Odor: None reported.
-
pH: Not available.
-
Vapor Pressure: Not available.
-
Viscosity: Not available.
-
Boiling Point: 180 deg C @ 760.00mmHg
-
Freezing/Melting Point: -58 deg C
-
Autoignition Temperature: Not available.
-
Flash Point: 60 deg C ( 140.00 deg F)
-
Explosion Limits, lower: Not available.
-
Explosion Limits, upper: Not available.
-
Solubility in water: immiscible
-
Specific Gravity/Density: 1.1400g/cm3
-
Molecular Formula: C7H15Br
-
Molecular Weight: 179.10
Package and Storage:
-
200kg/drum
-
Store in a cool, dry place. Keep container closed when not in use
Application /Application Industries:
-
Flavors & Fragrances
-
Synthesis of organic chemicals
More Detail Heptyl Bromide
-
Product Name: Heptyl Bromide
-
Chemical Formula: C7H15Br
-
CAS No.: 629-04-9
-
Dangerous Grade: 3
Technical Data of Heptyl Bromide
|
Item
|
Method
|
Specification
|
Result
|
|
Appearance
|
Visual Test
|
Colorless clear liquid
|
Pass
|
|
Purity
|
Gas Chromatography
|
≥99.0%
|
99.36%
|
|
Moisture
|
Karl Fischer
|
≤500ppm
|
280ppm
|
|
PH Value
|
1:1
Water Solution
|
6.0-8.0
|
Pass
|
-
Physical State: Liquid
-
Color: colorless
-
Odor: None reported.
-
pH: Not available.
-
Vapor Pressure: Not available.
-
Viscosity: Not available.
-
Boiling Point: 180 deg C @ 760.00mmHg
-
Freezing/Melting Point: -58 deg C
-
Autoignition Temperature: Not available.
-
Flash Point: 60 deg C ( 140.00 deg F)
-
Explosion Limits, lower: Not available.
-
Explosion Limits, upper: Not available.
-
Solubility in water: immiscible
-
Specific Gravity/Density: 1.1400g/cm3
-
Molecular Formula: C7H15Br
-
Molecular Weight: 179.10
Package and Storage:
-
200kg/drum
-
Store in a cool, dry place. Keep container closed when not in use
Application /Application Industries:
-
Flavors & Fragrances
-
Synthesis of organic chemicals
-
Pentyl Bromide
Product Name: Pentyl bromideChemical Formula: C5H11BrCAS No.: 110-53-2Dangerous Grade: 3Technical Data of Pentyl BromideItemMethodSpecificationResultAppearanceVisual InspectionColorless Transparent L...
-
Styralyl Acetate
Product Name: Styralyl acetate Chemical Formula: C10H12O2CAS No.: 93-92-5Dangerous Grade: 3Technical Data of Styralyl AcetateITEMSSPECIFICATIONAppearanceColorless transparent liquidAssay≥98.0%Acid va...
-
Propyl Bromide
Product Name: 1-BromopropaneChemical Formula: C3H7BrCAS No.: 106-94-5Dangerous Grade: 3Technical Data of Propyl BromideItemSpecificationAppearanceColorless Transparent LiquidAssay≥99.0%Water Content...
-
Hexyl Bromide
Product Name: Ethyl Vinyl EtherChemical Formula: C4H8OCAS No.: 109-92-2Dangerous Grade: 3Technical Data of Hexyl BromideItemSpecificationAppearanceColorless Transparent LiquidAssay≥99.50%Water Conte...
-
Ethyl Vinyl Ether
Product Name: Ethyl Vinyl EtherChemical Formula: C4H8OCAS No.: 109-92-2Dangerous Grade: 3Technical Data of Ethyl Vinyl EtherItemSpecificationAppearanceColorless Transparent LiquidAssay≥99.50%Water C...
-
Ethyl Bromide
Product Name: Ethyl BromideChemical Formula: C2H5BrCAS No.: 74-96-4Dangerous Grade: 6.1Technical Data of Ethyl BromideItemSpecificationAppearanceColorless clear liquidPurity≥99.0%Water Content≤500p...
-
L-Hydroxyproline
Product Name: L-HydroxyprolineChemical Formula: C5H9NO3CAS No.: 51-35-4Dangerous Grade: NoneTechnical Data of L-HydroxyprolineITEMSPECIFICATIONAppearanceWhite crystals or crystalline powderAssay9...
-
Butyl Vinyl Ether
Product Name: Butyl Vinyl EtherChemical Formula: C6H12OCAS No.: 111-34-2Dangerous Grade: 3Technical Data of Butyl Vinyl EtherItemSpecificationAppearanceColorless Transparent LiquidAssay≥99.0%Water Co...
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