EDC HCl: Your Premier Supplier for High-Purity Polypeptide Condensing Agents

Discover the essential role of 1-(3-Dimethylaminopropyl)-3-ethylcarbodiimide hydrochloride in driving innovation in peptide synthesis and bioconjugation. As a leading manufacturer and supplier in China, we provide the quality and reliability you need for your critical research and development projects. Request your quote and sample today!

Get a Quote & Sample

Key Advantages of Our EDC HCl

Exceptional Purity for Research Integrity

Our EDC HCl boasts a purity of ≥99.0%, ensuring that your polypeptide synthesis and crosslinking reactions proceed with maximum efficiency and minimal side reactions, a critical factor for R&D scientists and formulation chemists.

Stable Supply Chain from China

As a leading chemical manufacturer in China, we guarantee a stable and dependable supply of EDC HCl. Partner with us to secure your critical raw material needs and avoid production disruptions.

Flexible Packaging and Service

We offer standard 25 kg/drum packaging for our EDC HCl, with the flexibility to accommodate custom packaging requirements. This allows us to serve diverse operational scales and meet specific client demands for this chemical intermediate.

Diverse Applications of EDC HCl

Peptide Synthesis

EDC HCl is a cornerstone reagent for forming peptide bonds, crucial for synthesizing peptides used in pharmaceuticals and research. Explore our high-purity EDC HCl for your peptide synthesis needs.

Bioconjugation

This chemical intermediate is widely used to conjugate biomolecules like proteins, antibodies, and nucleic acids, enabling advancements in diagnostics and targeted therapies. Buy EDC HCl for your bioconjugation projects.

Crosslinking Agent

As a potent crosslinker, EDC HCl facilitates the formation of stable linkages between molecules, critical for hydrogel formation, immobilization of enzymes, and drug delivery systems. We are your reliable supplier.

Drug Delivery Systems

The ability of EDC HCl to modify and link biomolecules makes it indispensable in developing advanced drug delivery systems, enhancing therapeutic efficacy and patient outcomes.