2-(5-Chloro-2H-Indazol-3-Yl)Acetic Acid Bulk Price 2026: Market Analysis and Procurement Guide
- Market forecasts indicate stabilizing costs for CAS 27328-68-3 as production scales globally.
- Industrial purity levels above 97% are critical for pesticide intermediate applications.
- Strategic sourcing from verified partners ensures consistent supply chain reliability.
The pharmaceutical and agrochemical sectors are increasingly focusing on the cost-efficiency of key intermediates as we approach 2026. Specifically, 2-(5-Chloro-2H-indazol-3-yl)acetic acid (CAS: 27328-68-3) has emerged as a vital building block for various heterocyclic synthesis pathways. Understanding the bulk price dynamics for this compound requires a deep dive into synthesis efficiency, purity standards, and logistical scalability. This analysis provides technical buyers with the data needed to secure competitive rates for large-volume procurement.
Global Bulk Pricing Trends for CAS 27328-68-3 in 2026
Market data suggests a divergence between research-grade pricing and industrial-scale contracts. While small-quantity listings often range significantly based on immediate availability, true bulk price negotiations for kilogram and tonnage quantities rely on long-term supply agreements. As production capabilities expand among top-tier facilities, the cost per kilogram is expected to optimize, provided that raw material sourcing for chlorinated indazole precursors remains stable.
Buyers should anticipate that pricing tiers will be heavily influenced by the required specification grade. Standard commercial grades typically hover around 95% to 97% purity, while custom synthesis for active pharmaceutical ingredients (APIs) may demand 99% or higher. The volatility seen in smaller pack sizes (e.g., 100mg to 5g) does not reflect the stability of bulk contracts. Organizations securing supply for 2026 should lock in rates based on projected annual consumption rather than spot market purchases.
Factors Influencing Industrial-Scale Cost
Several technical and logistical variables dictate the final landed cost of this indazole derivative. Procurement managers must evaluate these factors to avoid hidden expenses during scale-up.
1. Industrial Purity and Synthesis Efficiency
The economic viability of producing 2-(5-Chloro-2H-indazol-3-yl)acetic acid is directly tied to the synthesis route employed. Efficient routes that minimize byproduct formation reduce downstream purification costs, which translates to better pricing for the buyer. High industrial purity is essential because residual impurities can interfere with subsequent coupling reactions in pesticide or pharmaceutical manufacturing.
Technical specifications typically include a molecular weight of approximately 210.62 Da and a molecular formula of C9H7ClN2O2. When evaluating suppliers, request detailed chromatography data to confirm that isomeric impurities are within acceptable limits. A robust manufacturing process ensures that these specifications are met consistently across different batches, reducing the risk of production delays at the client site.
2. Packaging and Logistics
Logistical costs constitute a significant portion of the total expenditure for bulk chemicals. Standard packaging for industrial quantities often includes palletized plastic pails (25 kg), fiber drums, or steel drums. For very large volumes, full container load (FCL) quantities using 1-ton super sacks are more cost-effective. Proper documentation, including a Certificate of Analysis (COA) and Safety Data Sheet (SDS), must accompany every shipment to ensure compliance with international transport regulations.
3. Lead Times and Supply Chain Reliability
Lead times can vary from immediate dispatch for stock items to several weeks for custom production. A reliable global manufacturer will maintain strategic stock levels to mitigate supply chain disruptions. Delays in receiving key intermediates can halt entire production lines, making reliability just as valuable as price.
Technical Specifications Overview
The following table outlines the critical physicochemical properties that buyers should verify against their internal quality control standards.
| Property | Specification |
|---|---|
| Chemical Name | 2-(5-Chloro-2H-indazol-3-yl)acetic Acid |
| CAS Number | 27328-68-3 |
| Molecular Formula | C9H7ClN2O2 |
| Molecular Weight | 210.62 g/mol |
| Purity Standards | 95%, 97%, 99% (Customizable) |
| Appearance | Solid (Typically Off-White to Beige) |
| Storage Conditions | Ambient, Sealed, Moisture Protected |
How to Request Competitive Quotations from Verified Manufacturers
Securing the best value for 2-(5-Chloro-2H-indazol-3-yl)acetic acid requires a structured approach to vendor qualification. Buyers should not rely solely on listed catalog prices, as these rarely reflect true bulk economics. Instead, initiate direct contact with production facilities to discuss volume-based tiers.
When requesting a quote, specify the required purity level, packaging preference, and destination port. Ask for recent batch records to verify consistency. It is also advisable to inquire about the supplier's capacity for scale-up should your demand increase in 2026. Partnering with a dedicated entity like NINGBO INNO PHARMCHEM CO.,LTD. ensures access to premier production capabilities and technical support tailored to complex intermediate synthesis.
In conclusion, the market for CAS 27328-68-3 is maturing, offering opportunities for cost savings through strategic partnerships. By focusing on technical compliance, logistical efficiency, and verified supply chains, procurement teams can secure favorable terms for the upcoming fiscal year. Prioritize suppliers who demonstrate transparency in their quality control and flexibility in their commercial agreements.