Niobium ethoxide

£420,000.00

High-purity Niobium Ethoxide (Nb(OC₂H₅)₅) serves as a critical precursor for advanced thin-film coatings, optical glasses, and energy storage materials, enabling superior dielectric and corrosion-resistant properties.

Competitive Advantage Spotlight
Our ≥99.95% trace-metals grade ensures batch-to-batch consistency, low particle count, and optimized hydrolysis control—delivering higher yields and fewer defects versus standard alkoxides.

Description

1. Product Overview

Niobium ethoxide is a high-purity metal alkoxide precursor essential for the synthesis of advanced niobium-based oxides and ferroelectric thin films. Primarily used in the production of specialty ceramics, optical coatings, and next-generation electronic components, it enables precise stoichiometric control in sol-gel and chemical vapor deposition (CVD) processes. Its strategic value lies in enabling high-dielectric-constant materials and energy-efficient capacitors, positioning it as a critical raw material for the $500B+ electronics and advanced materials supply chain.


2. Key Specifications & Technical Characteristics

  • Chemical composition: Niobium(V) ethoxide, Nb₂(OC₂H₅)₁₀ (CAS 3236-82-6)

  • Purity grade: ≥99.95% (metal basis); option for 99.999% (electronic grade)

  • Physical form: Clear, pale yellow to amber liquid

  • Density: ~1.26 g/mL at 20°C

  • Niobium content: ~25–28% by weight

  • Hydrolytic sensitivity: Highly reactive with water; moisture-free handling required

  • Packaging options: 1L, 5L, 20L stainless steel drums with PTFE-lined caps; 200L UN-certified drums for bulk

  • Shelf life: 12 months in unopened, inert gas-sealed containers stored at 2–8°C


3. Core Industrial Applications

  • Advanced ceramics & dielectric layers: Used to synthesize lithium niobate (LiNbO₃) and lead magnesium niobate (PMN) for multilayer ceramic capacitors (MLCCs) and surface acoustic wave (SAW) filters. Advantage: Enables thinner, defect-free films vs. solid-state mixing.

  • Optical coatings: High-refractive-index layers in anti-reflective and interference filters. Advantage: Superior uniformity and adhesion compared to sputtering targets.

  • Catalysis & nanomaterials: Precursor for niobia-supported catalysts in biomass conversion and olefin epoxidation. Advantage: Higher dispersion of active sites than impregnation methods.

  • Ferroelectric memory (FeRAM): SBT (SrBi₂Ta₂O₉) and SBN thin film deposition. Advantage: Low carbon residue upon annealing → fewer electrical leakage paths.


4. Competitive Advantages

  • Quality consistency: Batch-to-batch traceable ICP-OES analysis and residual chloride <50 ppm, exceeding industry norms.

  • Supply reliability: Dual-sourcing from dedicated Nb ethoxide synthesis lines with 99.8% on-time delivery over 24 months.

  • Logistics capability: Temperature-controlled, moisture-protected global shipping via dangerous goods certified partners (UN 3274).

  • Price competitiveness: Direct from integrated niobium refining → eliminates broker margin; volume-based tiered pricing.

  • Sustainability: Closed-loop ethanol recovery during synthesis reduces VOC emissions by 40% vs. conventional alkoxide processes.

  • Technical support: Full material characterization data (NMR, TGA, DTA) available pre-shipment; 48-hour SDS and handling protocol delivery.


5. Commercial & Supply Information

  • Minimum order quantity (MOQ): 20 kg (net) for standard grade; 5 kg for electronic grade

  • BULK 20MT loading capacity: Not applicable for liquid alkoxide – Maximum per ISO tank container: 16 MT (due to density and packaging regulations)

  • Standard container loading (20 ft): 80 drums × 200L each → net weight approx. 15.2 MT per container

  • Lead time: 14 days ex-works for MOQ; 30 days for full container loads

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