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Aug 30, 2022

New Magnet is Powerful Enough to Lift an Aircraft Carrier

Posted by in categories: military, nuclear energy

Less than a week after a Bill Gates-backed MIT startup announced it had successfully tested a massive magnet that could allow them to achieve “net energy” with their nuclear fusion reactor, scientists at France’s International Thermonuclear Experimental Reactor (ITER) received the first part of another huge magnet, an AP report explains.

That magnet is so strong that its American manufacturer claims it can lift an aircraft carrier. When it is fully assembled it will be almost 60 feet (20 meters) tall and 14 feet (over four meters) in diameter, and it could be the key to providing practically limitless energy via nuclear fusion.

Aug 30, 2022

How xenobots reshape our understanding of genetics

Posted by in category: genetics

The more we understand how cells produce shape and form, the more inadequate the idea of a genomic blueprint looks by Philip Ball + BIO.

Aug 30, 2022

Optical detection of multiple bacterial species using nanometer-scaled metal-organic hybrids

Posted by in categories: chemistry, food, nanotechnology, particle physics

Osaka Metropolitan University scientists have developed a simple, rapid method to simultaneously identify multiple food poisoning bacteria, based on color differences in the scattered light by nanometer-scaled organic metal nanohybrid structures (NHs) that bind via antibodies to those bacteria. This method is a promising tool for rapidly detecting bacteria at food manufacturing sites and thereby improving food safety. The findings were published in Analytical Chemistry.

According to the World Health Organization (WHO), every year food poisoning affects 600 million people worldwide—almost 1 in every 10 people—of which 420,000 die. Bacterial tests are conducted to detect food poisoning bacteria at food manufacturing factories, but it takes more than 48 hours to obtain results due to the time required for a bacteria incubation process called culturing. Therefore, there remains a demand for rapid testing methods to eliminate food poisoning accidents.

Responding to this need, the research team led by Professor Hiroshi Shiigi at the Graduate School of Engineering, Osaka Metropolitan University, utilized the optical properties of organic metal NHs—composites consisting of polyaniline particles that encapsulate a large number of metal nanoparticles—to rapidly and simultaneously identify food poisoning-inducing bacteria called enterohemorrhagic Escherichia coli (E. coli O26 and E. coli O157) and Staphylococcus aureus.

Aug 30, 2022

A CRISPR-Based Test Could Help Clinicians Diagnose Heart Attacks and Cancer

Posted by in category: biotech/medical

A new method that increases the signal from CRISPR-based diagnostic tests, removing the need for amplification of DNA or RNA in a sample, could be used to quickly diagnose heart attacks and differentiate between cancer types.

Aug 30, 2022

How a Certain Protein Can Cause Deadly Cancers

Posted by in categories: biotech/medical, neuroscience

A discovery made by researchers at the University of California, Irvine on how a certain protein is activated in tumor cells may lead to more effective treatments for some of the most deadly types of cancer. The finding, which was led by scientists at the School of Biological Sciences, may potentially result in treatment options for the especially dangerous melanoma and pancreatic adenocarcinoma, as well as the most common type of childhood brain cancer and adult skin cancer. The study was published in the journal Life Science Alliance.

The GLI1 protein, which is essential for cell development but has also been linked to a number of cancers, was the subject of the finding. The Hedgehog signaling pathway, also known as HH, usually activates GLI1. However, scientists have known for almost a decade that crosstalk, or interaction, between HH and the mitogen-activated protein kinase pathway, has a role in cancer.

“In some cases, proteins in one pathway can turn on proteins in another,” said lead author A. Jane Bardwell, a project scientist in UCI’s Department of Developmental and Cell Biology. “It’s a complex system. We wanted to understand the molecular mechanism that leads to GLI1 being activated by proteins in the MAPK pathway.”

Aug 30, 2022

Scientists Have Created Microrobots That Can Automatically Brush and Floss Your Teeth

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

Researchers from the University of Pennsylvania demonstrated in a proof-of-concept study that a hands-free device could successfully automate the treatment and removal of dental plaque and bacteria that cause tooth decay.

In the future, a shape-shifting robotic microswarm may serve as a toothbrush, rinse, and dental floss all in one. The technology, created by a multidisciplinary team at the University of Pennsylvania, has the potential to provide a brand-new, automated method for carrying out the repetitive but important daily duties of brushing and flossing. For people who lack the manual dexterity to efficiently clean their teeth alone, this system could be extremely helpful.

These microrobots are composed of iron oxide nanoparticles with catalytic and magnetic properties. Researchers were able to control their movement and configuration using a magnetic field to either produce bristle-like structures that remove dental plaque from the wide surfaces of teeth or elongated threads that can slide between teeth like a piece of floss. In both situations, the nanoparticles are driven by a catalytic reaction to release antimicrobials that eliminate harmful oral bacteria on site.

Aug 30, 2022

Pulses from an atom-sharp tip enable researchers to break and form chemical bonds at will

Posted by in categories: chemistry, particle physics

Chemical reactions often produce messy mixtures of different products. Hence, chemists spend a lot of time coaxing their reactions to be more selective to make particular target molecules. Now, an international team of researchers has achieved that kind of selectivity by delivering voltage pulses to a single molecule through an incredibly sharp tip.

“Controlling the pathway of a chemical reaction, depending on the voltage pulses used, is unprecedented and very alluring to chemists,” says KAUST’s Shadi Fatayer.

The team used an instrument that combines scanning tunneling microscopy (STM) and (AFM). Both techniques can map out the positions of atoms within individual molecules using a tip that may be just a few atoms wide. But the voltage can also be used to break bonds within a molecule, potentially allowing new bonds to form.

Aug 30, 2022

‘Naturally insulating’ material emits pulses of superfluorescent light at room temperature

Posted by in categories: biological, computing, nanotechnology, particle physics, quantum physics

Researchers looking to synthesize a brighter and more stable nanoparticle for optical applications found that their creation instead exhibited a more surprising property: bursts of superfluorescence that occurred at both room temperature and regular intervals. The work could lead to the development of faster microchips, neurosensors, or materials for use in quantum computing applications, as well as a number of biological studies.

Superfluorescence occurs when atoms within a material synchronize and simultaneously emit a short but intense burst of light. The property is valuable for quantum optical applications, but extremely difficult to achieve at room temperatures and for intervals long enough to be useful.

The material in question—lanthanide-doped upconversion nanoparticle, or UCNP—was synthesized by the research team in an effort to create a “brighter” optical material. They produced hexagonal ceramic crystals ranging from 50 nanometers (nm) to 500 nm in size and began testing their lasing properties, which resulted in several impressive breakthroughs.

Aug 30, 2022

Structured sonic tube with carbon nanotube-like topological edge states

Posted by in category: nanotechnology

Single-wall carbon nanotubes are made of carbon with diameters less than 100 nanometers. Here, the authors engineer an analogue tube with a diameter 1,000,000 times larger with the aim to explore topological properties including unusual acoustic edge states.

Aug 30, 2022

High-capacity Li-metal battery with improved rate-performance and stability

Posted by in categories: energy, sustainability, transportation

A study of Li-metal batteries by the research team led by Dr. Byung Gon Kim at Next-Generation Battery Research Center of Korea Electrotechnology Research Institute (KERI) was published as a cover paper in the international journal ACS Nano.

While the current Li-ion batteries generate energy by taking Li-ions in and out of the based on the intercalation mechanism, the Li-metal battery does not rely on this bulky and heavy graphite but uses metallic Li itself as the anode. As the Li-metal shows 10 times higher theoretical capacity (3,860 mAh/g) than graphite (372 mAh/g), it has steadily gained much attention from areas that need high-capacity batteries, such as and energy storage systems.

Despite this advantage, Li can grow in the shape of a tree branch, called a Li dendrite, if it is not uniformly and effectively stored when cycling process, leading to large volume expansion of the electrode, which in turn may shorten the battery’s cycle life and cause safety issue such as fire and explosion triggered by internal short-circuits.