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Archive for the ‘chemistry’ category: Page 114

Jul 27, 2023

Can 6 newly discovered chemical cocktails reverse aging?

Posted by in categories: biological, chemistry, life extension

A team of researchers has recently claimed to have discovered six chemical cocktails that could help reverse biological aging. Yet these preliminary laboratory results are a long way away from being applied to humans.

Jul 26, 2023

Revolutionizing Nuclear Thermal Propulsion in Space with DRACO

Posted by in categories: chemistry, space travel

Chemical propulsion has long been the standard for spaceflight, but for humans to reach Mars, we’ll need a much more powerful and efficient propulsion. Nuclear thermal propulsion (NTP) engines offer thrust as high as conventional chemical propulsion with much higher efficiency.

Jul 26, 2023

New study reveals spin in quantum dots’ carrier multiplication

Posted by in categories: chemistry, nanotechnology, quantum physics, solar power, sustainability

A new approach to developing semiconductor materials at tiny scales could help boost applications that rely on converting light to energy. A Los Alamos-led research team incorporated magnetic dopants into specially engineered colloidal quantum dots—nanoscale-size semiconductor crystals—and was able to achieve effects that may power solar cell technology, photo detectors and applications that depend on light to drive chemical reactions.

“In quantum dots comprising a lead-selenide core and a cadmium-selenide shell, manganese ions act as tiny magnets whose magnetic spins strongly interact with both the core and the shell of the quantum dot,” said Victor Klimov, leader of the Los Alamos nanotechnology team and the project’s principal investigator. “In the course of these interactions, energy can be transferred to and from the manganese ion by flipping its spin—a process commonly termed spin exchange.”

In spin-exchange multiplication, a single absorbed photon generates not one but two , also known as excitons, which occur as a result of spin-flip relaxation of an excited manganese ion.

Jul 26, 2023

Characterizing atomic defects in 2D materials to determine suitability as quantum emitters

Posted by in categories: chemistry, quantum physics

The term molybdenum disulfide may sound familiar to some car drivers and mechanics. No wonder: the substance, discovered by U.S. chemist Alfred Sonntag in the 1940s, is still used today as a high-performance lubricant in engines and turbines, but also for bolts and screws.

This is due to the special chemical structure of this solid, whose individual material layers are easily displaceable relative to one another. However, molybdenum disulfide (chemically MoS2) not only lubricates well, but it is also possible to exfoliate a single atomic layer of this material or to grow it synthetically on a wafer scale.

The controlled isolation of a MoS2 monolayer was achieved only a few years ago, but is already considered a materials science breakthrough with enormous technological potential. The Empa team now wants to work with precisely this class of materials.

Jul 26, 2023

Machine learning enables discovery of DNA-stabilized silver nanoclusters

Posted by in categories: biotech/medical, chemistry, genetics, robotics/AI

DNA can do more than pass genetic code from one generation to the next. For nearly 20 years, scientists have known of the molecule’s ability to stabilize nanometer-sized clusters of silver atoms. Some of these structures glow visibly in red and green, making them useful in a variety of chemical and biosensing applications.

Stacy Copp, UCI assistant professor of materials science and engineering, wanted to see if the capabilities of these tiny fluorescent markers could be stretched even further—into the near-infrared range of the electromagnetic spectrum—to give bioscience researchers the power to see through living cells and even centimeters of biological tissue, opening doors to enhanced methods of disease detection and treatment.

“There is untapped potential to extend fluorescence by DNA-stabilized silver nanoclusters into the near-infrared region,” she says. “The reason that’s so interesting is because our biological tissues and fluids are much more transparent to near-infrared light than to visible light.”

Jul 25, 2023

AI Unlocks Olive Oil’s Potential in Alzheimer’s Battle

Posted by in categories: biotech/medical, chemistry, robotics/AI

This is a good use of AI. Definitely regular it but I can see it’s contributing to medical research.


Summary: Researchers have utilized artificial intelligence to uncover the promising potential of extra virgin olive oil (EVOO) in combating Alzheimer’s disease (AD).

By integrating AI, chemistry, and omics research, the study identified specific bioactive compounds in EVOO that could contribute to the treatment and prevention of AD. Ten phytochemicals within EVOO, such as quercetin, genistein, luteolin, and kaempferol, were found to exhibit potential impacts on AD protein networks.

Continue reading “AI Unlocks Olive Oil’s Potential in Alzheimer’s Battle” »

Jul 25, 2023

Underground Cells Make ‘Dark Oxygen’ Without Light

Posted by in category: chemistry

In some deep subterranean aquifers, cells have a chemical trick for making oxygen that could sustain whole underground ecosystems.

Jul 25, 2023

Artificial intelligence and molecule machine join forces to generalize automated chemistry

Posted by in categories: chemistry, robotics/AI

Year 2022 😗😁


Better chemistry through computing: #ILLINOIS researchers led an international team that combined powerful AI and a molecule-making machine to automate complex chemistry.

Jul 25, 2023

Potent anti-cancer therapy created using ‘click chemistry’

Posted by in categories: biotech/medical, chemistry

A potent anti-cancer therapy has been created using Nobel prize-winning “click chemistry,” where molecules click together like LEGO bricks, in a new study by UCL and Stanford University researchers.

The study, published in Nature Chemistry, opens up new possibilities for how cutting-edge cancer immunotherapies might be built in future.

The research team created an anti-cancer therapy with three components: one targeting the cancer cell, another recruiting a white blood cell called a T cell to attack the cancer cell, and a third knocking out part of the cancer cell’s defenses.

Jul 25, 2023

Researchers describe ‘nanoclays,’ an innovative addition to tools for chemists

Posted by in categories: biotech/medical, chemistry, engineering

Microscopic materials made of clay, designed by researchers at the University of Missouri, could be key to the future of synthetic materials chemistry. By enabling scientists to produce chemical layers tailor-made to deliver specific tasks based on the goals of the individual researcher, these materials, called nanoclays, can be used in a wide variety of applications, including the medical field or environmental science.

A paper describing this research is published in the journal ACS Applied Engineering Materials.

A fundamental part of the material is its electrically charged surface, said Gary Baker, co-principal investigator on the project and an associate professor in the Department of Chemistry.