Triethylamine
Biotechnology Tertiary Amine
Organic Bases

Triethylamine (Organic Base)

High-purity triethylamine essential for biotechnology applications. Provides strong tertiary amine base properties for organic synthesis, buffer preparation, and reactions requiring non-nucleophilic base conditions with excellent solubility characteristics.

  • High-Purity Tertiary Amine
  • Organic Synthesis
  • Non-Nucleophilic Base
  • Buffer Applications
  • Excellent Solubility
  • Research Grade
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Technical Specifications

Chemical Name: Triethylamine
Molecular Formula: N(C₂H₅)₃
Molecular Weight: 101.19 g/mol
CAS Number: 121-44-8
Assay: ≥99% (ACS grade)
Physical Form: Clear colorless liquid
Density: 0.726 g/mL at 20°C
Boiling Point: 89.5°C
pKa: 10.75
Water Content: ≤0.1% (Karl Fischer)
Storage Temperature: 2-8°C (refrigerated)
Packaging Options: 100mL, 500mL, 1L, 2.5L

Applications

Organic Synthesis
Base Catalyst
Acid Neutralization
Peptide Synthesis
Analytical Chemistry
Educational Research
Tertiary Amine Studies
DNA Synthesis
Plant Alkaloid Synthesis
Buffer Preparation
Pharmaceutical Synthesis
Quality Control

Industry-Specific Grades

DRAVYOM offers specialized triethylamine grades tailored for specific base catalyst and synthesis applications, ensuring optimal basicity and regulatory compliance across diverse organic chemistry requirements.

ACS Grade
Assay: ≥99% Water: ≤0.1% Heavy metals: <10 ppm Application: General synthesis
Synthesis Grade
Assay: ≥99.5% Aldehydes: ≤0.01% Bases: Verified Application: Sensitive synthesis
Ultra-Dry Grade
Assay: ≥99.8% Water: ≤0.005% Molecular sieves: Treated Application: Moisture-sensitive
Pharmaceutical Grade
Assay: ≥99% (USP) USP: Compliant GMP: Validated Application: Drug synthesis

Quality Standards

DRAVYOM's Triethylamine is manufactured under stringent quality control protocols, meeting international base standards including ACS specifications and synthesis requirements. Our base production ensures consistent basicity and regulatory compliance.

ISO 9001:2015 Certified Manufacturing
ACS Grade Specifications
≥99% Assay Verified
Basicity Testing
Water Content Analysis
Impurity Testing
Certificate of Analysis
Cold Chain Storage

Advanced Chemical Properties & Performance

Biotechnology-grade Triethylamine exhibits exceptional properties essential for organic synthesis, peptide coupling reactions, and as a high-purity base. Its ultra-pure composition and controlled moisture content ensure reliable performance in demanding analytical and synthetic applications.

Chemical Properties
Molecular Formula: C₆H₁₅N
Molecular Weight: 101.19 g/mol
CAS Number: 121-44-8
Base Type: Tertiary amine
Physical Properties
Appearance: Clear, colorless liquid
Boiling Point: 89°C
Melting Point: -114.7°C
Density: 0.726 g/cm³ at 20°C
Base Properties
pKa: 10.75 (aqueous)
Base Strength: Strong organic base
Coupling Agent: Effective HCl scavenger
Solubility (water): 112 g/L at 20°C
Purity Specifications
Purity: ≥ 99.5% (GC)
Water Content: ≤ 0.1%
Diethylamine: ≤ 0.1%
Heavy Metals: ≤ 5 ppm
Stability Properties
Shelf Life: 2 years under inert atmosphere
Oxidation Sensitivity: Forms N-oxide under air
Moisture Sensitivity: Hygroscopic
Vapor Pressure: 6.9 kPa at 20°C

Performance Characteristics

Detailed performance metrics demonstrate Biotechnology Grade Triethylamine superiority in organic synthesis with exceptional base strength, coupling efficiency, and reproducibility across diverse synthetic applications.

Coupling Efficiency

Peptide coupling: >95% yield

Effective HCl scavenging
Base Strength

Proton abstraction: Strong basic activity

Reliable deprotonation
Reaction Compatibility

Organic solvents: Excellent miscibility

Versatile solvent compatibility
Temperature Stability

Working range: -20 to 80°C

Wide temperature tolerance
Batch Consistency

Purity variation: ±0.1% between lots

Consistent base activity
Reaction Kinetics

Base catalysis: Rapid proton transfer

Fast reaction rates

Safety Information

Flammable liquid with corrosive vapors that can cause severe eye and respiratory irritation. Strong base that can cause chemical burns. Handle only in well-ventilated areas with appropriate protective equipment. Vapors can form explosive mixtures with air.

Flammable
Corrosive
Eye Irritant

Storage & Handling

Store in cool, dry place under inert atmosphere away from heat sources and oxidizing agents. Keep containers tightly sealed to prevent moisture absorption and oxidation. Handle with full protective equipment in fume hood with appropriate fire safety measures.

Store under inert gas
Fume hood required
Away from ignition sources
Keep dry (moisture-sensitive)

Chemical Mechanisms & Reaction Pathways

Triethylamine exhibits strong nucleophilic properties through its lone pair electrons, enabling precise organic synthesis applications with predictable reaction pathways and quantitative stoichiometry.

Nucleophilic Reactions

Strong nucleophilic attack at electrophilic centers

Essential for organic synthesis procedures
Base Catalysis

Proton abstraction and acid neutralization reactions

Critical for reaction optimization
Complex Formation

Coordination complex formation with metal centers

Enables catalytic applications
Elimination Reactions

Facilitates elimination and dehydrohalogenation processes

Key mechanism for synthetic transformations

Regulatory Compliance & Documentation

Comprehensive regulatory compliance ensures global laboratory access with complete documentation packages supporting international standards and synthetic method validations.

ACS Specifications

American Chemical Society reagent standards compliance

ISO 6353 Standard

International standard for reagent specifications and testing

USP Grade Available

United States Pharmacopeia specifications for pharmaceutical synthesis

REACH Registration

European Union chemical regulation compliance

Method Validation

Supported synthetic method validation documentation

SDS Documentation

Multi-language Safety Data Sheets (16 sections, GHS compliant)

Technical Support & Value-Added Services

DRAVYOM's organic synthesis team provides comprehensive method support, troubleshooting assistance, and synthetic services to optimize triethylamine performance in your specific synthetic applications.

Method Development
  • Synthetic method optimization support
  • Reaction condition guidance
  • Yield and selectivity validation
  • Custom synthetic procedures
Analytical Services
  • Certificate of Analysis verification
  • Custom purity analysis
  • Trace impurity testing
  • Method validation support
Technical Support
  • Synthetic troubleshooting consultation
  • Storage and handling guidance
  • Safety training and protocols
  • Laboratory best practices
Supply Solutions
  • Consistent batch scheduling
  • Emergency supply arrangements
  • Custom packaging options
  • Global distribution network

Environmental Impact & Sustainability

Our triethylamine production emphasizes environmental responsibility through sustainable manufacturing practices, waste minimization, and comprehensive environmental impact management for synthetic laboratory operations.

Waste Minimization

Optimized production with minimal waste generation

Water Treatment

Advanced wastewater treatment and recycling systems

Clean Production

Energy-efficient synthesis with emission controls

Safe Disposal

Comprehensive guidance for laboratory waste management

ISO 14001

Environmental management system certified production

Container Recycling

Glass container return and recycling programs

Manufacturing Excellence & Quality Control

DRAVYOM's state-of-the-art organic synthesis facility employs advanced purification technology and continuous monitoring systems to ensure consistent triethylamine quality and performance across all production batches.

Production Process

Advanced distillation and purification in controlled inert environment

Multi-stage purification for synthetic grade quality
Quality Testing

25-point analytical testing protocol including GC-MS analysis and water content

NMR verification and spectroscopic analysis
Quality Systems

ISO 9001:2015 quality management with synthetic laboratory accreditation

Continuous improvement and method validation
Packaging Control

Amber glass containers with inert atmosphere packaging

Light protection and moisture prevention

Market Applications & Performance Data

Comprehensive synthetic laboratory data demonstrating triethylamine effectiveness across diverse applications with quantified performance metrics and synthetic method validations.

Organic Synthesis Labs
Yield Improvement: Up to 95% in base-catalyzed reactions Purity: >99.5% by GC analysis Method Validation: 100% synthesis compliance
Research Institutions
Publication Support: 300+ cited methods Reproducibility: >99% inter-lab agreement Innovation: Custom grade development
Pharmaceutical Labs
Reliability: 99.9% batch consistency Audit Success: 100% regulatory compliance Efficiency: 25% faster synthesis times

DRAVYOM Competitive Advantages

Superior Purity

Consistently exceeds specifications with ultra-low impurities and exceptional synthetic performance

Reliable Supply

Guaranteed availability with strategic inventory management and synthetic-grade production scheduling

Synthetic Expertise

Dedicated organic chemistry team provides method development and troubleshooting support

Quality Assurance

Traceable certificates with comprehensive analytical data and method validation support

Global Standards

International compliance with ACS, USP, and ISO specifications for worldwide acceptance

Partnership Approach

Collaborative relationships with synthetic laboratories and custom grade development services