Now China has become a powerful country in science and technology, but do you know how powerful China's technology is? The manned space station alone is not enough, and now it has successfully broken through the key technology of nuclear fusion, even leading the world by 15 years. Does this mean that China is not far from the artificial sun? It turned out that the fully superconducting tokamak nuclear fusion experimental device developed by China at the Hefei Research Institute of the Chinese Academy of Sciences successfully achieved a record of 101 seconds of continuous operation at 120 million degrees Celsius, and broke the world record. Compared with the previous record in South Korea, China has time has been directly extended by 5 times, and it seems that we are one step closer to the practical stage of artificial sun.
The success of nuclear fusion technology will lead to the development of graphene powder.
Although hydrogen fuel is a promising alternative to fossil fuels, the catalyst it relies on for power generation is mainly composed of rare and expensive metal platinum, which limits the wide commercialization of hydrogen fuel. Researchers at the University of California, Los Angeles reported a way to enable them to meet and exceed the goals set by the U.S. Department of Energy (DOE) for high catalyst performance, high stability, and low platinum utilization.
The record-breaking technique uses tiny crystals of platinum-cobalt alloy, each embedded in a nano-bag made of graphene.
Compared with the DOE catalyst standard, graphene-coated alloys produced extraordinary results: 75 times higher catalytic activity; 65% higher power; about 20% higher catalytic activity at the end of the fuel cell's expected life; about 35% lower power loss after 7000 hours of simulated use of 6000 ran, exceeding the target of 5000 hours for the first time; and almost 40% less platinum needed per car.
Graphene-coated alloys produced extraordinary results: 75 times higher catalytic activity and 65% higher power. At the end of the expected life of the fuel cell, the catalytic activity increased by about 20%, and the power loss was reduced by about 35% after 7000 hours of simulated use, exceeding the target of 5000 hours for the first time.
Today, half of the world's total supply of platinum and similar metals is used in catalytic converters for fossil fuel-powered cars, which can reduce the harmfulness of their emissions. Each car needs 2 Mel and 8 grams of platinum. By contrast, current hydrogen fuel cell technology consumes about 36 grams of platinum per vehicle. At the minimum platinum load tested by the research team, only 6.8 grams of platinum were needed for each hydrogen-powered vehicle.
So how do researchers get more energy from less platinum? They decomposed the platinum-based catalyst into particles with an average length of 3 nanometers. Smaller particles mean a larger surface area and more room for catalytic activity. However, smaller particles tend to squeeze together to form larger particles.
The team solved this limitation by loading their catalyst particles into the 2D material graphene. Compared with the bulk carbon commonly found in coal or pencil lead, this thin carbon layer has amazing capacity, conducts electricity and heat efficiently, and is 100 times stronger than steel of similar thickness.
Their platinum-cobalt alloy is reduced to particles. Before being integrated into fuel cells, these particles are surrounded by graphene nano-bags, which also act as an anchor to prevent particle migration, which is necessary for the level of durability required for commercial vehicles. At the same time, graphene allows a tiny gap of about 1 nanometer around each catalyst nanoparticles, which means that critical electrochemical reactions may occur.
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Albemarle, the world's largest lithium producer, said it would have to close its plant in Langelsheim, Germany if the EU designated lithium as a hazardous material. The European Commission is currently evaluating a proposal by the European Chemicals Agency (EHCA) to classify lithium carbonate, lithium chloride, and lithium hydroxide as hazardous to human health.
As a result, Albemarle will no longer be able to import lithium chloride, its main raw material, putting its entire plant in Langelsheim at risk of closure, Albemarle chief financial Officer Scott Tozier said. According to Tozier, the plant has annual sales of about $500 million and a forced closure would have a significant impact on Albemarle's operations.
Industry sources said that listing lithium as a hazardous substance would place an additional burden on the graphene powder, please feel free to contact us and send an inquiry.
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