Products
8-12um Ru-Ir Coating Porous Titanium Plate For PEM Research
Controlled Porosity Architecture
Extended Operational Lifetime
Mechanical Integrity Under Stress
Customizable Surface Engineering
TOPTITECH's 8-12um Ru-Ir Coating Porous Titanium Plate for PEM Research represents a breakthrough in proton exchange membrane (PEM) electrolysis and fuel cell applications, engineered to deliver exceptional electrochemical stability and catalytic efficiency. Its titanium substrate features a precisely controlled porous architecture, optimized for high gas permeability while maintaining structural integrity under extreme operational conditions. The ruthenium-iridium mixed metal oxide (MMO) coating, applied via advanced thermal decomposition, forms a nanoscale conductive network that significantly enhances charge transfer kinetics and corrosion resistance in acidic environments. This electrode design minimizes interfacial resistance and bubble overpotential, critical for improving PEM system efficiency.
Designed for rigorous research environments, TOPTITECH's 8-12um Ru-Ir Coating Porous Titanium Plate for PEM Research excels in durability testing, demonstrating negligible performance degradation even after prolonged exposure to high-potential cycling. The synergistic Ru-Ir oxide composition ensures balanced activity for both oxygen evolution (OER) and hydrogen evolution (HER) reactions, making it indispensable for bifunctional catalyst studies. Its tailored porosity gradient facilitates uniform current distribution and mitigates localized hot spots, addressing common failure modes in conventional PEM electrodes. Researchers benefit from its reproducible surface morphology and phase-pure crystalline structure, verified through XRD and SEM-EDS analysis, providing reliable baselines for comparative electrocatalyst studies.
Products Specifications
| Material |
GR1 titanium |
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|
Size |
100*100mm |
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|
Thickness |
0.5mm |
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|
Coating |
8-12um Ru-Ir coating |
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Technique |
Sintering |
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Products Features

High-Efficiency Electrocatalysis
RuO₂-IrO₂-TiO₂ ternary coatings demonstrate minimal overpotential (<0.3V) in chlorine evolution reactions, outperforming traditional graphite anodes in energy conversion efficiency.
Controlled Porosity Architecture
Interconnected 3D pore networks (25-45% porosity) enable optimal electrolyte diffusion, supporting current densities above 5kA/m² without concentration polarization.
Extended Operational Lifetime
Ta₂O₅-stabilized oxide coatings resist acidic degradation (pH<1), achieving service life 8-10x longer than conventional DSAs in chlor-alkali electrolysis.

Mechanical Integrity Under Stress
TiB₂-reinforced substrates maintain fracture toughness exceeding 18MPa·m¹/² during thermal cycling (ΔT≥200°C), preventing crack propagation.
Customizable Surface Engineering
Plasma-sprayed gradient coatings allow zone-specific catalytic properties, enabling bifunctional electrodes for hybrid electrochemical systems.
Sustainable Production Compliance
Closed-loop thermal decomposition recovers >95% solvent emissions, meeting ISO 14044 and REACH regulatory standards.
applications
High-Efficiency Bipolar Plates
Gradient porosity (20-50μm channels) enables uniform reactant distribution across catalyst-coated membranes (CCMs), reducing mass transport losses by 30-40% versus graphite counterparts.
Corrosion-Resistant Current Collectors
IrO₂-Ta₂O₅ coatings withstand PEM electrolyzer environments (pH≈2, 80°C), demonstrating <0.1% weight loss after 5000-hour accelerated testing.
Enhanced Interfacial Conductivity
Laser-sintered Ti/TiB₂ substrates achieve interfacial contact resistance <5 mΩ·cm² at 1.4 MPa compaction pressure, critical for stack voltage stability.
Integrated Catalyst Supports
Plasma-sprayed MMO layers serve as Pt/Ir nanoparticle anchors, increasing electrochemical surface area (ECSA) by 2x compared to carbon-based gas diffusion layers.
Dynamic Water Management
Hierarchical pore structures (10-100μm) facilitate capillary-driven water removal, mitigating flooding in high-current-density operation (>4 A/cm²).
Thermal Stability for HT-PEM
TiN-doped coatings maintain <5% resistivity increase at 180°C, enabling compatibility with phosphoric acid-doped polybenzimidazole membranes.
life

Contact us
Tel: 0917-3873009
Phone: +86 18992731201
Email: zhangjixia@bjygti.com
Fax: 0917-3873009
Address: No. 195, Gaoxin Avenue, High-tech Development Zone, Baoji City, Shaanxi, China
Whatsapp: +86 18992731201
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