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Archive for the ‘energy’ category: Page 222

Nov 8, 2020

Researchers claim their graphene “SuperBattery” achieves a 15-second charging time

Posted by in categories: energy, materials

Skeleton Technologies and the Karlsruhe Institute of Technology (KIT) say they have developed a graphene-based battery with a 15-second charging time, as well as charging cycles counted in the hundreds of thousands.

The so-called SuperBattery’s key component is Skeleton’s patented Curved Graphene carbon material, which enables the high power and long lifetime of ultracapacitors to be applied in a graphene battery.

“The SuperBattery is a game-changer for the automotive industry. Together with Li-ion batteries, they have it all: high energy and power density, long lifetime and 15-second charging time,” said Skeleton Technologies CEO Taavi Madiberk.

Nov 7, 2020

Pushing the envelope with fusion magnets

Posted by in categories: energy, materials

David Fischer, an MIT Energy Fellow at the Plasma Science and Fusion Center, is observing ways irradiation damages thin high-temperature superconductor tapes in the design of ARC, a fusion pilot plant concept.

Nov 7, 2020

Study finds nearly 100 percent recycling rate for lead batteries

Posted by in categories: energy, sustainability

Battery Council International (BCI), Chicago, and Essential Energy Everyday have released a study showing lead batteries have a recycling rate of 99.3 percent, making them the No. 1 recycled consumer product in the U.S.

The groups say the near-perfect rate of recycling is attributed to industry investment in a closed loop collection and recycling system that keeps 1.7 million tons of batteries out of landfills annually.

The National Recycling Rate Study, released in conjunction with America Recycles Day Nov. 15, 2017, demonstrates the sustainability of lead batteries and their role in environmentally friendly energy storage for automotive and industrial applications, say the organizations.

Nov 7, 2020

World’s first metasurface laser that produces “super-chiral light”

Posted by in categories: energy, nanotechnology

Scientists in collaboration have developed the world’s first metasurface laser that produces “super-chiral light”- the light with ultra-high angular momentum. Also, they have developed a nanostructured metasurface that has the most significant phase gradient ever produced and allows for high power operation in a compact design.

Nov 5, 2020

Researchers Develop Special Paint That Helps Reduce The Need For Air Conditioning

Posted by in category: energy

The colors that we choose to paint rooms, houses, or buildings do more than just change the way it looks. Colors can affect one’s mood as well, but it can also have an impact on the overall temperature. This is because different colors absorb light differently, with some colors absorbing light more than others, which is why colors like black are known to retain heat.

In a bid to help reduce the need for air conditioning which can consume a lot of electricity and also release by-product gases into the atmosphere, researchers at Purdue University have developed a special form of white paint that they claim can reduce surface temperatures by up to 18 degrees Fahrenheit compared to their ambient surroundings, thus replicating the effects of a refrigerator but without consuming any energy at all.

Continue reading “Researchers Develop Special Paint That Helps Reduce The Need For Air Conditioning” »

Nov 4, 2020

Researchers discover a new way to produce hydrogen using microwaves

Posted by in categories: chemistry, energy, transportation

A team of researchers from the Polytechnic University of Valencia and the Spanish National Research Council (CSIC) has discovered a new method that makes it possible to transform electricity into hydrogen or chemical products solely using microwaves—without cables and without any type of contact with electrodes. This represents a revolution in the field of energy research and a key development for the process of industrial decarbonisation, as well as for the future of the automotive sector and the chemical industry, among many others. The study has been published in the latest edition of Nature Energy, where the discovery is explained.

The technology developed and patented by the UPV and CSIC is based on the phenomenon of the reduction of solid materials. This method makes it possible to carry out electrochemical processes directly without requiring electrodes, which simplifies and significantly cheapens its practical use, as it provides more freedom in the design of the structure of the device and choosing the operation conditions, mainly the temperature. It is a technology with great practical potential, especially for its use in storing energy and producing synthetic fuels and green chemical products. This aspect has significant importance today, as both transportation and industry are immersed in a transition to decarbonise, meaning they have to meet very demanding goals between 2030 and 2040 to decrease the consumption of energy and substances from fossil sources, mainly natural gas and oil, highlights José Manuel Serra, research lecturer of the CSIC at the Chemical Technology Institute.

Nov 4, 2020

H2? Oh! New water-splitting technique pushes progress of green hydrogen

Posted by in categories: energy, futurism

Researchers from Spain have found a cleaner and cheaper way to extract hydrogen from water.

Could this help make hydrogen the preferred fuel source of the future? 😃 article from theregister.com.


It’s really dope. Yep it’s an energy-efficient process kicked off by gadolinium-doped cerium dioxide.

Nov 2, 2020

Nylon finally takes its place as a piezoelectric textile

Posted by in categories: energy, materials

Nylon might seem the obvious go-to material for electronic textiles—not only is there an established textiles industry based on nylon, but it conveniently has a crystalline phase that is piezoelectric—tap it and you get a build-up of charge perfect for pressure sensing and harvesting energy from ambient motion.

Unfortunately, forming into fibers while getting it to take on the crystal structure that has a is not straightforward. “This has been a challenge for almost half a century,” explains Kamal Asadi, a researcher at the Max-Planck Institute for Polymer Research, Germany, and professor at the University of Bath, U.K. In a recent Advanced Functional Materials report, he and his collaborators describe how they have now finally overcome this.

The piezoelectric phase of nylon holds appeal not just for electronic textiles but all kinds of electronic devices, particularly where there is demand for something less brittle than the conventional piezoelectric ceramics. However, for decades, the only way to produce nylon with the crystalline phase that has a strong piezoelectric response has been to melt it, rapidly cool it and then stretch it so that it sets into a smectic δ’ phase. This produces slabs typically tens of micrometers thick—far too thick for applications in electronic devices or electronic textiles.

Oct 31, 2020

New Nuclear Fuel Could Replace Uranium in Reactors

Posted by in category: energy

Nuclear power could become more accessible thanks to a new nuclear fuel called ANEEL that combines thorium with uranium.

Oct 30, 2020

U.S. Sells Seized Iranian Oil

Posted by in categories: energy, government, terrorism

The United States has sold crude oil seized from four Iranian tankers earlier this year for some $40 million the AFP reports, citing a U.S. government official.

“We estimate that in excess of $40 million will be recouped by the United States related to the sale of petroleum from those four vessels,” Michael Sherwin, acting U.S. attorney for the District of Columbia said. Sherwin added that “a great portion” of the money will be donated to a fund for the victims of “state-sponsored terrorism”.

In the middle of August, the U.S. Administration said it had seized the fuel cargo of several vessels, alleging that the fuel came from Iran and was going to Venezuela. The confiscation followed a lawsuit filed by U.S. prosecutors to seize the cargo carried by the four vessels for violating U.S. sanctions against Venezuela.