9-(4-Bromophenyl)-10-(1-Naphthyl)Anthracene Bulk Price 2026: Industrial Sourcing Guide
- Technical Specification: CAS 1160506-32-0, Formula C30H19Br, achieving ≥98.0% HPLC purity for OLED applications.
- Procurement Advantage: Scalable manufacturing process with optimized yields for 25kg drum quantities.
- Market Outlook: Stable bulk price projections for 2026 driven by efficient synthesis routes and supply chain reliability.
In the rapidly evolving landscape of organic light-emitting diode (OLED) materials, the demand for high-performance host and transport materials is paramount. 9-(4-Bromophenyl)-10-(1-naphthyl)anthracene stands out as a critical intermediate for constructing efficient emissive layers. As we approach 2026, procurement managers and process chemists require detailed insights into the bulk price dynamics, technical specifications, and supply chain stability of this compound. This guide provides a comprehensive technical analysis for industrial buyers seeking reliable sources for CAS 1160506-32-0.
The molecular structure, defined by the formula C30H19Br and a molecular weight of approximately 459.38 g/mol, offers unique steric and electronic properties essential for high-efficiency devices. Sourcing this material requires a partner capable of maintaining strict quality control standards, ensuring that every batch meets the rigorous demands of commercial display and lighting manufacturing.
Technical Specifications and Quality Control
For industrial applications, consistency is key. The physical form of this anthracene derivative is typically a crystalline powder, ranging in color from white to yellow. Achieving high industrial purity is non-negotiable, as trace impurities can significantly quench luminescence or degrade device lifetime. Leading suppliers utilize advanced purification techniques, such as gradient sublimation and repeated recrystallization, to ensure purity levels exceed 98.0% as measured by HPLC.
Below is a standard specification table for bulk procurement verification:
| Parameter | Specification |
|---|---|
| CAS Number | 1160506-32-0 |
| Chemical Formula | C30H19Br |
| Molecular Weight | 459.38 g/mol |
| Purity (HPLC) | ≥ 98.0% |
| Physical Form | Crystalline Powder |
| Appearance | White to Yellow |
When evaluating suppliers, requesting a comprehensive COA (Certificate of Analysis) is standard procedure. This document should detail not only the purity but also residual solvent levels and heavy metal content, ensuring compliance with international safety and environmental standards.
Optimization of the Manufacturing Process
The economic viability of producing 9-(4-Bromophenyl)-10-(1-naphthyl)anthracene at scale depends heavily on the efficiency of the synthesis route. Typically, this compound is synthesized via palladium-catalyzed cross-coupling reactions, such as the Suzuki-Miyaura coupling, between a brominated anthracene precursor and a naphthyl boronic acid derivative.
Optimizing this manufacturing process involves careful selection of catalysts, ligands, and base systems to maximize yield while minimizing side products. Industrial-scale production requires robust process control to manage exotherms and ensure consistent batch-to-batch reproducibility. Advanced manufacturers employ continuous flow chemistry or optimized batch reactors to enhance throughput and reduce waste.
For buyers evaluating potential partners, understanding the scalability of the synthesis route is crucial. A laboratory-scale success does not guarantee industrial viability. Therefore, partnering with an established entity ensures that the transition from gram-scale to kilogram-scale maintains the integrity of the chemical structure and purity profile.
Wholesale Pricing Tiers for 25kg Drums
Pricing for organic intermediates fluctuates based on raw material availability, energy costs, and logistical complexities. However, for 2026, the market indicates a stabilization in costs for anthracene derivatives due to improved supply chain efficiencies. Bulk procurement, specifically in 25kg drum quantities, offers significant cost advantages over smaller packaging units.
When sourcing high-purity 9-(4-Bromophenyl)-10-(naphthalen-1-yl)anthracene, buyers should anticipate tiered pricing structures that reward volume commitments. Large-scale contracts often include benefits such as reserved production capacity, priority shipping, and customized packaging solutions to prevent degradation during transit.
It is essential to factor in total landed cost, which includes freight, insurance, and customs duties. A reliable global manufacturer will provide transparent Incoterms and assist with logistics to ensure timely delivery to production facilities worldwide.
Requesting Custom Quotes from Global Manufacturer
Securing the best value requires direct engagement with the production source. NINGBO INNO PHARMCHEM CO.,LTD. positions itself as a premier partner for such specialized chemical intermediates. By working directly with a dedicated manufacturer, clients can negotiate terms that align with their production schedules and budget constraints.
Custom quotes should specify the required purity grade, packaging type (e.g., nitrogen-purged drums), and delivery timeline. For long-term projects, establishing a framework agreement can lock in favorable rates and guarantee supply continuity. NINGBO INNO PHARMCHEM CO.,LTD. offers the technical expertise and production capacity to meet these demanding requirements, ensuring that your supply chain remains resilient against market volatility.
2026 Market Trends for Anthracene Derivatives Bulk Price
Looking ahead to 2026, the demand for OLED materials continues to surge, driven by expansions in consumer electronics, automotive displays, and solid-state lighting. This increased demand places pressure on the supply of key intermediates like 9-(4-Bromophenyl)-10-(1-naphthalenyl)anthracene. However, advancements in catalytic efficiency and raw material synthesis are expected to counterbalance potential price increases.
Market analysis suggests that the bulk price will remain competitive for buyers who secure long-term supply agreements. Regions with robust chemical infrastructure will likely dominate production, offering stability in both quality and quantity. Investors and procurement officers should monitor trends in palladium catalyst costs and naphthalene feedstock prices, as these are primary drivers of final product costing.
In conclusion, successful procurement of 9-(4-Bromophenyl)-10-(1-naphthyl)anthracene relies on a deep understanding of technical specifications, manufacturing capabilities, and market dynamics. By prioritizing industrial purity and partnering with experienced manufacturers, companies can secure the materials needed to drive innovation in next-generation display technologies.