20 02, 2024

Ultrasonic Spraying of Alkaline Fuel Cells

By |2024-02-05T04:31:52+00:00February 20th, 2024|Energy, NEWS|Comments Off on Ultrasonic Spraying of Alkaline Fuel Cells

Ultrasonic Spraying of Alkaline Fuel Cells Ultrasonic Spraying of Alkaline Fuel Cells - Cheersonic Alkaline Fuel Cells (AFCs) are easy to handle, have very high electrical efficiency and are very suitable for dynamic operating modes. They can be built into small compact systems as well as in large power plants. AFCs were the first practically working fuel cells capable of delivering significant power, particularly for transport applications. The [...]

18 02, 2024

Ultrasonic Spraying of Membrane Materials

By |2024-02-05T04:27:59+00:00February 18th, 2024|Energy, NEWS|Comments Off on Ultrasonic Spraying of Membrane Materials

Ultrasonic Spraying of Membrane Materials Ultrasonic Spraying of Membrane Materials - Cheersonic The most widely used class of membrane materials today for the PEMFC are of the perfluorinated sulfonic acid (PFSA) type. However, they have the disadvantage of being inherently expensive due to the complex fluorine chemistry involved in their fabrication and too expensive to extent their application. Indeed, the Nafion based membrane shows complete domination in mechanical, [...]

16 02, 2024

Ultrasonic Spraying of GDL

By |2024-02-05T04:19:20+00:00February 16th, 2024|Energy, NEWS|Comments Off on Ultrasonic Spraying of GDL

Ultrasonic Spraying of GDL Ultrasonic Spraying of GDL - Ultrasonic Coating - Cheersonic The gas diffusion layers (GDL) are a fibrous porous medium that has two main functions: to ensure a uniform distribution of reactive gases on the surface of the electrodes, and the transport of electrons to or from the external electrical circuit. Gas diffusion layer (GDL) is a crucial component which is mainly responsible for the [...]

14 02, 2024

Membrane Electrode Preparation Methods

By |2024-02-05T04:12:20+00:00February 14th, 2024|Energy, NEWS|Comments Off on Membrane Electrode Preparation Methods

Membrane Electrode Preparation Methods Membrane Electrode Preparation Methods - Ultrasonic Coating - Cheersonic Membrane electrode assemblies (MEAs) are the core components of a proton exchange membrane fuel cell and consist of three key materials: the proton exchange membrane, the catalyst, the gas diffusion layer and the frame. The commonly referred to membrane electrode assembly is a seven-layer membrane electrode, including the proton exchange membrane, the anode catalyst layer [...]

12 02, 2024

Ultrasonic Spraying of Molten Carbonate Fuel Cells

By |2024-02-05T04:06:03+00:00February 12th, 2024|Energy, NEWS|Comments Off on Ultrasonic Spraying of Molten Carbonate Fuel Cells

Ultrasonic Spraying of Molten Carbonate Fuel Cells Ultrasonic Spraying of Molten Carbonate Fuel Cells - Cheersonic The molten carbonate fuel cell (MCFC) systems represent one of the most flexible systems for in-situ and stationary electrical power plants, because of their high electrical efficiency and possibility to supply hydrogen produced by different raw fuels. The main principles of MCFCs are based on SOFCs and the other types of fuel [...]

10 02, 2024

Ultrasonic Spraying of PEMFCs

By |2024-02-04T08:28:16+00:00February 10th, 2024|Energy, NEWS|Comments Off on Ultrasonic Spraying of PEMFCs

Ultrasonic Spraying of PEMFCs Ultrasonic Spraying of PEMFCs - MEA Coating - Cheersonic The extensive commercialisation of proton exchange membrane fuel cells (PEMFCs) is still limited by several technical challenges, which have been identified as performance, cost, and durability. Especially, actions are required to reduce the membrane electrode assembly (MEA) cost. The membrane’s microstructure can be considered as a fine mesh at either edge with a network of [...]

4 02, 2024

Ultrasonic Spraying of Perovskite onto ITO Glass

By |2024-02-05T08:09:39+00:00February 4th, 2024|Energy, NEWS|Comments Off on Ultrasonic Spraying of Perovskite onto ITO Glass

Ultrasonic Spraying of Perovskite onto ITO Glass What is the experimental process of ultrasonic spraying of perovskite onto ITO glass? Let’s take a look! First, let’s understand the background of this experiment. With the continuous advancement of science and technology, perovskite materials are increasingly used in solar cells, LEDs and other fields. Ultrasonic spraying technology, as an emerging coating technology, has the advantages of good coating quality and [...]

2 02, 2024

Ultrasonic Coating of Platinum Nanocatalysts

By |2024-02-05T05:30:19+00:00February 2nd, 2024|Energy, NEWS|Comments Off on Ultrasonic Coating of Platinum Nanocatalysts

Ultrasonic Coating of Platinum Nanocatalysts Ultrasonic Coating of Platinum Nanocatalysts - Cheersonic The study of proton exchange membrane fuel cells (PEMFCs) has received intense attention due to their wide and diverse applications in chemical sensors, electrochemical devices, batteries, supercapacitors, and power generation, which has led to the design of membrane-electrode assemblies (MEAs) that operate in different fuel cell types. Commonly, platinum nanocatalysts and their alloys present high catalytic [...]

31 01, 2024

Ultrasonic Coating for PEM Fuel Cells and Electrolysis

By |2024-02-04T08:08:03+00:00January 31st, 2024|Energy, NEWS|Comments Off on Ultrasonic Coating for PEM Fuel Cells and Electrolysis

Ultrasonic Coating for PEM Fuel Cells and Electrolysis Ultrasonic Coating for PEM Fuel Cells and Electrolysis - Cheersonic Today we are going to talk about a high-tech fuel cell that is able to coat membranes using ultrasonic spray technology. PEM fuel cell and electrolytic ultrasonic spraying technology are a promising new energy technology. We are trying to use it in the lab to coat membranes, a process that [...]

29 01, 2024

Spray Pyrolysis Technique for Li-ion Batteries

By |2024-01-15T07:01:32+00:00January 29th, 2024|Energy, NEWS|Comments Off on Spray Pyrolysis Technique for Li-ion Batteries

Spray Pyrolysis Technique for Li-ion Batteries Spray Pyrolysis Technique for Li-ion Batteries - Cheersonic Our company uses atomization spray pyrolysis technology to produce nano powders used as electrode active materials for lithium ion batteries. This technology is to prepare nanometer powders by atomizing spray pyrolysis of nitrate/chloride solutions of selected metals. In this process, the initial solution concentration, temperature and atomization conditions will affect the particle size, morphology [...]

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