The world is moving towards cleaner and environmentally friendly energy sources, so hydrogen vehicles are today’s solution. It seems that these cars, if driven by hydrogen and being used, fuel cells are a better and more environmentally friendly mode of transport. But how do hydrogen cars refuel, and what other fuel cells will be used […]

Are you aware of fuel cell and how coating bipolar plates improves it’s efficiency? let’s fint out! Fuel cells are electrochemical generators that process fuel and produce electricity. Another important element in the fuel cells is bipolar; it is a plate which conducts electricity between the neighboring fuel cell stacks. When these bipolar plates are

In the domain of battery technology, especially rechargeable systems, battery’s efficiency, and performance dictates the consideration of every stage in its manufacture. One such crucial, but most times under considered process is cathode drying. If not properly optimized, the process of cathode drying may account for as much as 40% of the total manufacturing costs

A Proton Exchange Membrane (PEM) fuel cell is one of those types of fuel cells that extracts electricity from hydrogen while heating and producing water as a waste by-product. It is for their efficiency in generating clean fuel that they are liked for fitting into cars, mobile devices & stationary power sources. But what exactly

Fuel cell technologies have taken the BP industry by storm for quite some time. But what is a fuel cell, what is the design of fuel cell stack in bipolar plates and why is it so essential? In other words, fuel cells are electrochemical devices that convert hydrogen and oxygen into electricity while producing water

In the design and development of a Fuel Cell Stack, since the output voltage of a single fuel cell is typically low, usually between 0.6V and 0.8V, the current and power output of a single battery are relatively limited. To meet the higher voltage and power requirements in practical applications such as automotive propulsion or

Introduction: In electrochemical devices, the design and material selection of the Electrode plate are crucial. Whether it is the Bipolar plate used in fuel cells or the Monopolar plate used in electrolyzers, they are essential components for the operation of these devices. Both Bipolar and Monopolar plates play key roles in different electrochemical environments, supporting

Titanium can significantly enhance the performance and durability of Fuel Cells when used in the manufacturing of Bipolar Plates, making it an ideal choice for high-demand Fuel Cell applications. If you wish to explore the application and impact of titanium in Bipolar Plates further, continue your journey with TMN. This article will first introduce the

Introduction In fuel cells, the bipolar plate is one of the core components, playing a crucial role in separating the cells, conducting electricity, and managing gas flow. However, due to the long-term exposure of bipolar plates to complex electrochemical environments, their stability and lifespan often face challenges. In practical applications, bipolar plates not only come