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Archive for the ‘energy’ category: Page 35

Apr 16, 2024

Study uses thermodynamics to describe expansion of the universe

Posted by in categories: energy, space

Quaise Energy, a Massachusetts Institute of Technology spin-off, plans to vaporize rocks in the Earth’s core and tap into deep geothermal energy.

Apr 16, 2024

California exceeds 100% of energy demand with renewables over a record 30 days

Posted by in categories: energy, engineering

In a major clean energy benchmark, wind, solar, and hydro exceeded 100% of demand on California’s main grid for 30 of the past 38 days.

Stanford University professor of civil and environmental engineering Mark Z. Jacobson has been tracking California’s renewables performance, and he shares his findings on Twitter (X) when the state breaks records. Yesterday he posted:

Jacobson notes that supply exceeds demand for “0.25−6 h per day,” and that’s an important fact. The continuity lies not in renewables running the grid for the entire day but in the fact that it’s happening on a consistent daily basis, which has never been achieved before.

Apr 14, 2024

Semiconductor quantum dots: Technological progress and future challenges

Posted by in categories: chemistry, energy, quantum physics

Quantum #dots feature widely tunable and distinctive optical, electrical, chemical, and physical properties. They span energy #harvesting, #ILLUMINATION, #displays, #cameras, and more.

Read more on #WorldQuantumDay: #Sciencereview.

Semiconductor quantum dots: Technological progress and future challenges.

Apr 13, 2024

Giant battery to be installed underground as deep as Empire State Building is tall: ‘It’s a massive amount of storage’

Posted by in categories: energy, sustainability

A small town in central Utah is set to be the home of a new underground “battery” that will store hydrogen as a clean energy source.

According to The New York Times, developers are creating two caverns as deep as the Empire State Building is tall from a geological salt formation near Delta, Utah. These caverns, which are expected to be complete next year, will be able to store hydrogen gas.

Continue reading “Giant battery to be installed underground as deep as Empire State Building is tall: ‘It’s a massive amount of storage’” »

Apr 13, 2024

New tidal stellar stream discovered with Gaia

Posted by in categories: energy, space

By analyzing the data from ESA’s Gaia satellite, Chinese astronomers have detected a new tidal stellar stream in the northern hemisphere, which has a low metallicity and a relatively high energy. The finding was reported in a research paper published April 1 in The Astrophysical Journal.

Apr 13, 2024

Quantum Control Unlocked: Creating Resistance-Free Electron Channels

Posted by in categories: energy, quantum physics

Unveiling Chiral Interface States

The chiral interface state is a conducting channel that allows electrons to travel in only one direction, preventing them from being scattered backward and causing energy-wasting electrical resistance. Researchers are working to better understand the properties of chiral interface states in real materials but visualizing their spatial characteristics has proved to be exceptionally difficult.

But now, for the first time, atomic-resolution images captured by a research team at Berkeley Lab and UC Berkeley have directly visualized a chiral interface state. The researchers also demonstrated on-demand creation of these resistance-free conducting channels in a 2D insulator.

Apr 13, 2024

Researchers Develop Simple Way To Harvest More “Blue Energy” From Waves

Posted by in categories: energy, nanotechnology

As any surfer will tell you, waves pack a powerful punch. We’re now making strides toward harnessing the ocean’s relentless movements for energy, thanks to advancements in “blue energy” technology. In a study published in ACS Energy Letters, researchers discovered that by moving the electrode from the middle to the end of a liquid-filled tube—where the water’s impact is strongest—they significantly boosted the efficiency of wave energy collection.

The tube-shaped wave-energy harvesting device improved upon by the researchers is called a liquid-solid triboelectric nanogenerator (TENG). The TENG converts mechanical energy into electricity as water sloshes back and forth against the inside of the tube. One reason these devices aren’t yet practical for large-scale applications is their low energy output. Guozhang Dai, Kai Yin, Junliang Yan, and colleagues aimed to increase a liquid-solid TENG’s energy harvesting ability by optimizing the location of the energy-collecting electrode.

Apr 12, 2024

CATL unveils Tesla Megapack competitor, claims zero degradation and more capacity

Posted by in category: energy

CATL has unveiled Tener, a new large scale energy storage system to compete with Tesla Megapack.

The system has almost twice the energy capacity of the Megapack, and CATL claims zero degradation after 5 years.

Tesla Megapack is the poster boy of large-scale energy storage.

Continue reading “CATL unveils Tesla Megapack competitor, claims zero degradation and more capacity” »

Apr 11, 2024

Researchers develop paper battery that generates power from water, air

Posted by in category: energy

Researchers at Tohoku University have developed a paper-based Magnesium-air battery that is eco-friendly and powerful.

Apr 11, 2024

Efficiency boost: Dual light pulses minimize energy for phase transitions

Posted by in categories: energy, materials

Notably, while other scientists have observed similar phenomena in their laboratory data, the mechanisms behind these observations remained elusive until now. Allan Johnson and his collaborators have elucidated the underlying processes, highlighting the formation of polarons and their ordering in specific directions as a key factor in reducing the energy penalty to the metallic phase. Driving the phase transition by exciting this disordered state of motion can be achieved with less energy.

Furthermore, the dynamic barrier lowering means that scientists are able to selectively reduce the required for the laser driven phase transition without increasing the probability of thermal switching, in contrast to other methods for improving the efficiency.

The results have been published in Nature Physics. The implications of this research extend beyond fundamental science, offering new avenues for precise material control and technological innovation. As the team continues to optimize the method and explore new , the potential for transformative advancements in material science and optical control remains high.

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