He Sol It’s a giant ball hydrogen. There is already a plan in place to get it out. It is as surprising as the Japanese ‘hacking’ of hydrogen. He hydrogen It is a promising energy source to achieve a more sustainable future because it can be used as a clean and renewable fuel.
However, when generated from fossil sources it is expensive and not sustainable in the long term. The generation of H from solar energy is becoming a powerful and extremely profitable solution. When solar panels are used to produce electricity, H can be produced through a process called water electrolysis.
This process separates the hydrogen of oxygen in the water hydrogen pure and oxygen as a byproduct. Water electrolysis is not a new process, but technological advancements have changed a lot, making renewable hydrogen more accessible.
In addition, solar energy is becoming more economical. An aspect that makes the production of hydrogen from this energy source is becoming increasingly profitable. It should be noted that the Sol contains 71% hydrogen27% helium and 2% other heavier elements.
The sun is a huge hydrogen ball and this project plans to extract it
A group of chemists University of North Carolina at Chapel Hill have created a unique perspective to harness the energy from Sol generate gas hydrogen as clean energy from water.
Under the guidance of the teacher Alexander Molenaarthe study published in Natural chemistry with the title “Self-assembly of catalysts accelerates the electrocatalytic evolution of H2, driven by bimetallic light in water” analyzes a system that uses light and electricity to divide water into the two elements that compose it: hydrogen and oxygen.
The experts revealed that the molecular structures caused the catalysts (molecules that speed up a chemical reaction without being consumed in the process) to group together to develop micelles. These are globules that look like oily deposits on the surface of the water when olive oil is added.
Water splitting is an essential mechanism in renewable energy technologies, especially in power generation hydrogen as a clean and sustainable fuel. The H obtained from water can be used in fuel cells, combustion engines and other purposes, where water vapor is distilled as the only by-product.
This project uses the hydrogen that is ‘locked up’ in the sun
“Water splitting has the potential to store solar energy in the form of chemical bonds, addressing the intermittent nature of solar energy generation,” he explained. Miller through statement.
He added: “Research into efficient and cost-effective methods of water distribution is a key area of interest in the field of renewable energy and sustainable development.”
The researchers also used the technique of dynamic light scattering, also called photon correlation spectroscopy, to measure the size of the catalysts by studying fluctuations in the intensity of the scattered light.
The use of this non-invasive technique provided valuable data on the size, shape and distribution of the catalysts. Larger micelles produced hydrogen faster. They also used an analytical tool called nuclear magnetic resonance spectroscopy, which ultimately confirmed that the catalysts were close together within the particles.
“We want to capture the energy of sunlight and instead of converting it into electricity, like a solar panel on the roof, we want to generate a fuel that we can store and use as needed to drive a car, a charge the battery, the lights.”, he clarified Miller.
He Sol It’s a giant ball hydrogen and this plan aims to extract it to utilize its maximum potential. A project that is just as striking as this way of producing hydrogen at home.