2-Cyano-N-(Ethylcarbamoyl)Acetamide Bulk Procurement 2026: Price Trends, Purity Standards & Supply Strategy
- Global bulk prices for 2-Cyano-N-(ethylcarbamoyl)acetamide in 2026 are driven by raw material costs, synthesis route efficiency, and demand from agrochemical sectors.
- Industrial purity ≥98% with full Certificate of Analysis (COA) is now standard for tonnage-scale procurement of this key urea derivative.
- NINGBO INNO PHARMCHEM CO.,LTD. offers scalable manufacturing of 1-(2-cyanoacetyl)-3-ethylurea with ISO 9001:2015-certified quality control from kg to multi-ton batches.
As the agrochemical and pharmaceutical industries ramp up production ahead of the 2026 growing and development cycles, technical buyers are intensifying their focus on the bulk procurement economics of 2-Cyano-N-(ethylcarbamoyl)acetamide (CAS 41078-06-2). This specialty intermediate—also known as 1-(2-cyanoacetyl)-3-ethylurea, N-ethyl-N'-cyanoacetyl-urea, or in German nomenclature as N-Aethyl-N'-cyanacetyl-harnstoff—serves as a critical building block in heterocyclic synthesis for crop protection agents and bioactive molecules. Understanding current pricing dynamics, purity benchmarks, and reliable sourcing channels is essential for cost-efficient, risk-mitigated supply chain planning.
Global Bulk Pricing Trends for 2-Cyano-N-(Ethylcarbamoyl)Acetamide in 2026
Bulk pricing for 2-Cyano-N-(ethylcarbamoyl)acetamide in 2026 reflects a stabilization following post-pandemic volatility, with FOB China quotations ranging between USD 48–62/kg for industrial-grade (≥98% purity) material in multi-hundred-kilogram to tonnage quantities. Key drivers include:
- Raw Material Costs: Fluctuations in cyanoacetic acid and ethyl isocyanate feedstocks directly influence synthesis economics.
- Energy & Logistics: Regional energy pricing in Asia-Pacific and maritime freight rates impact delivered costs to Europe and North America.
- Regulatory Compliance: Suppliers with REACH pre-registration and full TSCA compliance command a 5–8% premium due to reduced import friction.
Notably, demand from herbicide R&D programs has increased year-over-year by ~12%, tightening supply for high-purity batches and elevating premiums for lots accompanied by comprehensive Certificates of Analysis (COA) detailing residual solvents, heavy metals, and related substances.
Factors Influencing Industrial-Scale Procurement Costs
When sourcing high-purity 2-Cyano-N-(ethylcarbamoyl)acetamide, buyers must evaluate more than just per-kilogram price. The total cost of ownership is shaped by several technical-commercial variables:
Synthesis Route Efficiency
The dominant industrial synthesis involves the condensation of cyanoacetic acid with ethyl isocyanate under controlled anhydrous conditions. Alternative routes using urea derivatives may reduce feedstock costs but often yield higher impurity loads (e.g., unreacted urea, di-substituted byproducts), necessitating costly recrystallization. Manufacturers with optimized synthesis routes achieve >85% isolated yields with minimal chromatographic purification—translating to lower COGS and stable bulk pricing.
Industrial Purity & Analytical Rigor
For agrochemical intermediates, industrial purity of ≥98.0% is typically sufficient, but leading buyers now require:
- HPLC assay ≥98.5%
- Water content ≤0.5% (KF titration)
- Residual solvents (DMF, toluene) below ICH Q3C limits
- Heavy metals ≤20 ppm
How to Source High-Purity Batches with COA from Verified Suppliers
Procurement professionals should prioritize suppliers with vertically integrated manufacturing, ISO 9001:2015 certification, and proven scale-up capability from lab to tonnage. NINGBO INNO PHARMCHEM CO.,LTD. exemplifies this profile, offering end-to-end control over the manufacturing process for N-Aethyl-N'-cyanoacetylharnstoff, including in-house QC labs capable of delivering full COA within 48 hours of batch completion.
The company’s flexible production chain supports custom synthesis from gram to multi-ton scale, with rapid tech transfer from pilot to commercial reactors—ensuring consistent impurity profiles across batches. Their technical team provides synthetic support for downstream cyclization reactions, enhancing value beyond mere supply.
Comparative Supplier Capability Matrix (2026)
| Criteria | Top-Tier Global Manufacturer (e.g., NINGBO INNO PHARMCHEM CO.,LTD.) | Generic Asian Supplier | Western Distributor |
|---|---|---|---|
| Industrial Purity | ≥98.5% (HPLC) | 95–97% (variable) | ≥98.0% (repackaged) |
| COA Detail Level | Full: HPLC, NMR, KF, ICP-MS, residual solvents | Limited: assay only | Dependent on OEM |
| Scale Flexibility | 100 g – 10+ MT | 10 kg – 1 MT | 1–100 kg |
| Lead Time (MT scale) | 4–6 weeks | 6–10 weeks | 8–12 weeks |
| ISO 9001:2015 Certified | Yes (on-site audit available) | Rarely | No (trading entity) |
For 2026 procurement cycles, early engagement with manufacturers like NINGBO INNO PHARMCHEM CO.,LTD. is advised to lock in capacity and secure favorable terms before Q2 demand surges. Requesting sample batches with full COA for synthetic validation remains a best practice to avoid costly reprocessing or failed reactions due to hidden impurities.
Conclusion
The 2026 landscape for 2-Cyano-N-(ethylcarbamoyl)acetamide bulk procurement favors technically rigorous, relationship-based sourcing over transactional price shopping. With its dual identity as both N-ethyl-N'-cyanoacetyl-urea and 1-(2-cyanoacetyl)-3-ethylurea, this intermediate demands suppliers who understand its role in sensitive cyclization chemistries. By prioritizing partners with robust manufacturing processes, transparent COA documentation, and scalable infrastructure, buyers can ensure both cost efficiency and synthetic reliability in their supply chains.