Can stainless steel felts be gas diffusion layers?
What is stainless steel? How is it different from steel? Steel and stainless steel are widely used in various industries but have distinct differences. Steel is an alloy of iron […]
Conductive & Antistatic Materials
This category supports CAPLINQ conductive & antistatic materials. These products focus primarily on applications for supercapacitors, gas diffusion layers, pressure sensors and TENS electrodes. Therefore, the category delivers news and information designed to engage professionals that have questions or comments concerning the proper use and applications of these products.
Products in this category include:
Furthermore, examples of typical topics discussed in this category include:
- Use of graphitized carbon paper as a current collector
- Difference between antistatic and conductive materials
- Different ways of making materials conductive
Subcategories of this main category blog include:
As a result, guests are invited to discuss their applications, ask questions and offer comments and feedback as they relate to conductive & antistatic materials.
What Are the Differences Between Sintered Metal Powders and Sintered Metal Fiber Felts?
Porous metal materials, characterized by their porous structures, are innovative engineering materials that offer impressive strength while being light. These materials are used across different industries, including aerospace, metallurgy, mechanics, […]
Understanding Porosity in Gas Diffusion Layers for Fuel Cells and Electrolyzers
Gas diffusion layers (GDLs) play a crucial role in the performance and efficiency of fuel cells and water electrolyzers. These porous materials facilitate the transport of the reactants to the […]
Why are Graphitized Carbon Panels Cheaper than Sintered Titanium for Gas Diffusion Layers?
In a previous article, we explored the various materials commonly employed as gas diffusion layers (GDLs). Among these, two stand out as the most common choices for fuel cells and […]
Designing denser PCBs with Polyimide ink Material Jetting
Material Jetting (MJ) is transforming Additive Manufacturing (AM) by providing a high-resolution technique for efficiently depositing material droplets to create complex structures. This article discusses the creation and synthesis of […]
Introduction to Reactive Polydimethylsiloxanes (Silicones)
Reactive polydimethylsiloxanes, or RPDMS (Reactive Silicones), are a new class of silicone polymers with distinct characteristics that are gaining increasing fame in a wide range of industrial applications. PDMSs have […]
Exploring Compressibility in Carbon Papers: A Comprehensive Guide
Explore the pros and cons of high and low compressibility in carbon papers. Understand how compressibility affects density, resistance, strength, and conformability for various applications. Make informed decisions with this comprehensive guide
How does graphitization affect the structure and properties of carbon fiber papers?
The manufacturing process of our LINQCELLTM carbon-based gas diffusion (or porous transport) layers involves three major steps: (1) paper wet laying, (2) carbonization, and (3) graphitization. During the wet paper […]
