Wuzhou HGP Advanced Materials Technology Corp.,Ltd.

Established in 2003, Wuzhou HGP Advanced Materials Technology Corp.,Ltd. is a globally renowned high-tech enterprise specializing in the research, production, and sales of new materials. Our manufacturing base is located in Wuzhou City, Guangxi, China.

Our company focuses on the research, development, and manufacturing of new energy electrode materials such as green hydrogen production, lithium-ion batteries, nickel-hydrogen, nickel-zinc, and nickel-iron. Our main products include hydrogen electrode materials, lithium battery current collectors, nickel foam, and copper foam. 

Our company built its own research center with strong technical capabilities, advanced manufacturing equipment, scientific process flow, and a well-established quality inspection system. We are recognized as one of the internationally renowned manufacturers in the field of foam metal production.

Our company possess the complete processing capabilities for the research and development, manufacturing, surface treatment, post-welding, and cutting of green hydrogen electrode materials.

Our commitment is to provide customers with high-quality products, solutions, and services. 

Our company's vision is to become a leading global supplier of new energy battery and green hydrogen manufacturing electrode materials.

We aim to achieve a sustainable energy and green low-carbon industry by utilizing new materials.

Focusing on the research and manufacturing of new materials, our company is committed to offering excellent products and services to customers in the new energy battery and green hydrogen manufacturing industries.

Our company upholds the values of innovation, excellence, collaboration, and service as its core principles.

Our company possesses exclusive technology and independent intellectual property rights, making us a leading enterprise in the domestic market with the ability to mass-produce the same product. Our three-dimensional high-efficiency hydrogen production catalyst electrode has excellent strength and resistance to concentrated alkali corrosion, making it suitable for use in alkaline tanks.

The hydrogen electrode material offers the following benefits:

1. The 3D micro-porous pure nickel electrode (N-W series) maintains the most stable high-purity nickel composition in concentrated alkali solution. It has excellent adhesion and a surface area approximately 100 times larger than that of ordinary three-dimensional porous nickel metal, which effectively reduces the hydrogen and oxygen evolution overpotentials.

2. The 3D porous catalytic electrode (N-M series) exhibits strong catalyst-substrate binding, high catalytic activity, and effectively reduces the overpotential for hydrogen and oxygen evolution, making it particularly suitable for cathodic applications.

3. The 3D micro-porous catalytic electrodes (N-MW series) possess both sub-millimeter and micro-nanometer three-dimensional heterogeneous structures. These electrodes are coated with catalysts, enabling them to have high specific surface area and catalytic activity while maintaining sub-millimeter pore size gas-liquid channels. They are highly efficient hydrogen production electrodes that can be used for both cathode and anode applications.

Our company possesses advanced research and testing equipment as well as production equipment, enabling us to have comprehensive capabilities in the design, development, production, and post-processing (cutting, rounding, etc.) of hydrogen electrode coverage.

 Testing conditions for electrodes:

1. The small electrolytic cell for hydrogen production has an electrode diameter ranging from 100 to 200mm.

2. The electrolyte used in the cell is a concentrated solution of 30% KOH.

3. The temperature of the electrolytic cell is maintained at 80℃.

Test results:

 The test was conducted for 1500 hours and showed stable performance with no signs of degradation or powder loss.

Key characteristics of the product:

high catalyst stability, exceptional bonding strength, high electrical density, low voltage, and low energy consumption.

Actual performance reached:

The MWP series, when combined with a three-dimensional porous nickel support layer, can achieve a current density of 10000A/㎡ (@80℃-30%KOH-2.0V). This allows the electrode to have a high specific surface area and catalytic activity while maintaining sub-micron pore size gas-liquid channels, thereby greatly improving the uniform distribution of gas-liquid mixed fluids on the electrode surface.