1. Youveim® E107 NiFeOx - Ti Mesh Electrode
Product Description
The Youveim® E107 NiFeOx - Ti Mesh Electrode features nickel-iron oxide (NiFeOx) as the active catalyst coated on a titanium mesh substrate. The NiFeOx catalyst is well-known for its efficiency in oxygen evolution reactions (OER), and the titanium (Ti) mesh provides excellent corrosion resistance, particularly in harsh alkaline environments. This electrode is designed for high-performance water splitting and electrochemical processes, combining strong catalytic activity with mechanical durability.
Features
NiFeOx Catalyst: High-performance nickel-iron oxide catalyst ideal for OER, delivering excellent electrocatalytic activity.
Titanium Mesh: Provides strong structural support and high corrosion resistance, especially in alkaline media.
High Conductivity: The Ti mesh ensures excellent electrical conductivity for efficient electrochemical reactions.
Advantages
Efficient Oxygen Evolution: NiFeOx is a cost-effective and highly active catalyst for oxygen evolution in water splitting.
Durable in Harsh Environments: Titanium offers excellent resistance to corrosion, ensuring long-term stability.
Cost-Effective: A more economical alternative to noble metal-based electrodes, while maintaining high catalytic performance.
Applications
Water Electrolysis: Optimized for oxygen production in water splitting.
Alkaline Electrolyzers: Suitable for use in alkaline electrolyzers where corrosion resistance and catalytic efficiency are required.
Energy Conversion: Can be employed in fuel cells and other energy storage systems involving OER.
2. Youveim® E107T NiFeOx - Ti Mesh Electrode (Hydrophobic Interface)
Product Description
The Youveim® E107T NiFeOx - Ti Mesh Electrode (Hydrophobic Interface) is a modified version of the E107 electrode, featuring a hydrophobic coating on the titanium mesh. This modification enhances gas management during electrochemical reactions by improving gas-liquid separation, reducing electrode flooding, and increasing reaction kinetics. The NiFeOx catalyst remains the active material for oxygen evolution reactions, while the hydrophobic interface enhances performance in water splitting and fuel cells.
Features
Hydrophobic Interface: Optimizes gas diffusion and minimizes flooding, improving electrode efficiency.
NiFeOx Catalyst: Retains the high catalytic activity for OER.
Titanium Mesh Substrate: Maintains excellent durability and corrosion resistance in aggressive environments.
Advantages
Improved Gas Management: The hydrophobic surface prevents flooding, ensuring better gas-liquid separation and faster reaction rates.
Higher Efficiency: Enhanced gas diffusion leads to more efficient electrochemical reactions, particularly in high-performance water splitting systems.
Long-Term Stability: The combination of titanium mesh and hydrophobic interface ensures lasting performance even in challenging conditions.
Applications
Water Splitting Systems: Ideal for applications that require effective gas management, such as large-scale hydrogen production.
Fuel Cells: Enhances performance in fuel cells where gas-liquid interface control is crucial.
Electrochemical Energy Storage: Suitable for use in systems where efficient oxygen evolution is required, along with gas-liquid control.
3. Youveim® E107PT NiFeOx - Platinized Ti Mesh Electrode
Product Description
The Youveim® E107PT NiFeOx - Platinized Ti Mesh Electrode features a platinum (Pt) coating applied over the NiFeOx catalyst on a titanium mesh substrate. Platinum enhances the electrode’s overall electrocatalytic performance, particularly for oxygen evolution reactions (OER) and hydrogen evolution reactions (HER). The titanium mesh offers robust mechanical strength and corrosion resistance, while the platinization improves reaction kinetics and efficiency.
Features
Platinum Coating: Significantly enhances electrocatalytic activity, especially for OER and HER.
NiFeOx Catalyst: Retains the cost-effective and active nickel-iron oxide catalyst properties.
Titanium Mesh Substrate: Provides excellent corrosion resistance and mechanical durability.
Advantages
Superior Electrocatalysis: The platinum layer enhances both OER and HER activity, making the electrode suitable for dual-use in electrolysis.
High Stability: Platinum improves the longevity and stability of the electrode in demanding conditions.
Improved Reaction Kinetics: The platinized surface reduces overpotentials, leading to more efficient electrochemical reactions.
Applications
High-Efficiency Water Electrolysis: Optimized for systems requiring both oxygen and hydrogen generation, particularly for large-scale hydrogen production.
Fuel Cells: Suitable for fuel cell applications where both OER and HER play a critical role.
Industrial Electrochemical Systems: Can be used in electrochemical energy storage and conversion systems that demand high performance and durability.
4. Youveim® E107G NiFeOx - Gold-Plated Ti Mesh Electrode
Product Description
The Youveim® E107G NiFeOx - Gold-Plated Ti Mesh Electrode combines the high catalytic efficiency of NiFeOx with the superior electrical conductivity and corrosion resistance of gold. The gold-plated titanium mesh ensures outstanding performance in both alkaline and acidic environments, while the NiFeOx catalyst promotes efficient oxygen evolution reactions (OER). This electrode is particularly suited for applications requiring exceptional durability and chemical stability.
Features
Gold Plating: Provides excellent corrosion resistance and high electrical conductivity, improving overall electrochemical performance.
NiFeOx Catalyst: Delivers efficient oxygen evolution activity at a lower cost than noble metal catalysts.
Titanium Mesh Substrate: Offers strength, durability, and corrosion resistance for long-term use.
Advantages
Enhanced Conductivity: The gold plating increases electrical conductivity, improving reaction rates and overall system efficiency.
Corrosion Resistance: Gold’s resistance to corrosion ensures stable performance in harsh chemical environments.
Durability: The combination of NiFeOx, titanium, and gold offers long-term stability in both alkaline and acidic systems.
Applications
Electrochemical Systems in Corrosive Environments: Ideal for use in electrochemical applications exposed to harsh conditions, such as industrial electrolyzers.
Fuel Cells and Water Electrolysis: Suitable for high-performance water splitting and fuel cell applications where both catalytic efficiency and chemical stability are critical.
Chemical Processing: Can be used in chemical processing environments that demand high resistance to corrosion and wear.
Each version of the Youveim® E107 NiFeOx series offers specific advantages tailored to distinct electrochemical applications, ranging from general OER systems to high-performance electrolysis, ensuring durability and efficiency across a wide array of energy conversion technologies.
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Youveim® E107 NiFeOx - Titanium Mesh Electrode
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Product Code | Description | Price and Specifications | Lead Time |
| Youveim® E107(SC) NiFeOx - Ti Mesh Electrode
| 1.0mg/cm2 NiFeOx: $80 (5*5cm); $220 (10*10cm); $660 (20*20cm);
2.0mg/cm2 NiFeOx: $100 (5*5cm); $260 (10*10cm); $780 (20*20cm); 3.0mg/cm2 NiFeOx: $120 (5*5cm); $300 (10*10cm); $900 (20*20cm); 4.0mg/cm2 NiFeOx: $129 (5*5cm); $322 (10*10cm); $969 (20*20cm); 5.0mg/cm2 NiFeOx: $140 (5*5cm); $360 (10*10cm); $1080 (20*20cm); 6.0mg/cm2 NiFeOx: $160 (5*5cm); $480 (10*10cm); $1440 (20*20cm); | Ask for quote |
| Youveim® E107T(SC) NiFeOx - Ti Mesh Electrode (Hydrophobic Interface)
|
1.0mg/cm2 NiFeOx: $80 (5*5cm); $220 (10*10cm); $660 (20*20cm); 2.0mg/cm2 NiFeOx: $100 (5*5cm); $260 (10*10cm); $780 (20*20cm); 3.0mg/cm2 NiFeOx: $120 (5*5cm); $300 (10*10cm); $900 (20*20cm); 4.0mg/cm2 NiFeOx: $129 (5*5cm); $322 (10*10cm); $969 (20*20cm); 5.0mg/cm2 NiFeOx: $140 (5*5cm); $360 (10*10cm); $1080 (20*20cm); 6.0mg/cm2 NiFeOx: $160 (5*5cm); $480 (10*10cm); $1440 (20*20cm); | Ask for quote |
| Youveim® E107PT(SC) NiFeOx - Platinized Ti Mesh Electrode |
1.0mg/cm2 NiFeOx: $100 (5*5cm); $360 (10*10cm); $1360 (20*20cm);
2.0mg/cm2 NiFeOx: $120 (5*5cm); $420 (10*10cm); $1560 (20*20cm); 3.0mg/cm2 NiFeOx: $140 (5*5cm); $500 (10*10cm); $1760 (20*20cm); 4.0mg/cm2 NiFeOx: $160 (5*5cm); $560 (10*10cm); $1960 (20*20cm); 5.0mg/cm2 NiFeOx: $180 (5*5cm); $640 (10*10cm); $2160 (20*20cm); 6.0mg/cm2 NiFeOx: $200 (5*5cm); $700 (10*10cm); $2360 (20*20cm); | Ask for quote |
| Youveim® E107G(SC) NiFeOx - Gold-Plated Ti Mesh Electrode |
1.0mg/cm2 NiFeOx: $180 (5*5cm); $620 (10*10cm); $2260 (20*20cm);
2.0mg/cm2 NiFeOx: $200 (5*5cm); $660 (10*10cm); $2380 (20*20cm); 3.0mg/cm2 NiFeOx: $220 (5*5cm); $700 (10*10cm); $2500 (20*20cm); 4.0mg/cm2 NiFeOx: $229 (5*5cm); $722 (10*10cm); $2569 (20*20cm); 5.0mg/cm2 NiFeOx: $240 (5*5cm); $760 (10*10cm); $2680 (20*20cm); 6.0mg/cm2 NiFeOx: $260 (5*5cm); $880 (10*10cm); $3040 (20*20cm); | Ask for quote |
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Default use [Research grade titanium mesh (thickness 0.28mm, aperture 25 µ m)], Users can also specify other thicknesses or models of titanium mesh (such as stretch mesh, punched mesh, woven mesh, etc.)【Accelerate® NiFeOx (25-35nm, 98%)】As an anode catalyst.
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