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Category: biotech/medical – Page 773

This isn’t a new discovery but something we’ll have to deal with in some places. I’ve actually drank noxious tap water and got really sick.

Most Americans take it for granted that the water that comes out of their taps is clean and safe to drink.

But a new study published by a University of New Mexico scientist with colleagues from across the U.S. warns that water from many wells and community water systems contains unsafe levels of toxic contaminants, exposing millions to health risks, including cancer.

The review in the Journal of Exposure Science and Environmental Epidemiology also finds that people living on tribal lands or in are disproportionately affected and predicts that will make it harder to locate safe sources of drinking water.

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The 2023 Nobel Prize in Chemistry was awarded to three scientists who discovered and developed quantum dots, which are very small particles that can change color depending on their size. Quantum dots are tiny particles of a special kind of material called a semiconductor. They are so small that they behave differently from normal materials. They can absorb and emit light of different colors depending on their size and shape.

You can think of quantum dots as artificial atoms that can be made in a lab! They have some of the same properties as atoms, such as having discrete energy levels (meaning they can only exist in certain distinct energy states, and they cannot have energy values between these specific levels) and being able to form molecules with other quantum dots. But they also have some unique features that make them useful for many applications, such as displays, solar cells, sensors, and medicine, which I shall discuss later in this story!

To grasp the workings of quantum dots, a bit of quantum mechanics knowledge comes in handy. Quantum mechanics teaches us that these tiny entities can possess only specific amounts of energy, and they transition between these energy levels by absorbing or emitting light. The energy of this light is determined by the difference in energy levels. In typical materials like metals or plastics, energy levels are closely packed, forming continuous bands where electrons can move freely, resulting in less specific light absorption or emission. However, in semiconductors like silicon or cadmium selenide, there’s a gap between these bands known as the “band gap.” Electrons can only jump from one band to another by interacting with light having an energy level that precisely matches the band gap, making semiconductors valuable for creating devices like transistors and LEDs.

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This is just Episode 1 of 10 in the powerful Radical Remission docuseries. To learn more, visit: http://radicalremissiondocuseries.com/

In Radical Remission, you’ll meet 21 amazing survivors who healed against all odds by taking control of their healing process, plus dozens of world-renowned scientists, researchers, and doctors who speak to the scientific validity of what the survivors are saying.

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From LED lights to medical imaging, quantum dots have many varied applications.

The creation of quantum dots earned its developers the Nobel Prize in Chemistry 2023, an invention that could have also been a contender for the Physics Prize. These tiny elements of nanotechnology, which are so miniature that their size dictates their properties, are today used in many useful and practical applications and have even been reported to direct surgeons as they tackle tricky tumor tissue.

Nobel Prize/Twitter.

Governed by quantum phenomena.

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There are a lot of things to detest about poop. It’s poop, for one. It smells. It carries disease. It never stops being produced. But that aside, there’s a lot to like about poop.

It’s one of the world’s most plentiful sources of nutrients for fertilizers. Processed properly, poop can also be converted into electricity. It even be used as new artistic medium, though somebody’s already scooped up the prize for poop painting. As the world’s population grows, both the positive and the negative effects of poop on public health and the environment will only grow, so a burgeoning group of brave scientists are trying to figure out how to make the best of a crappy situation.

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A study by Northwestern University predicted colonoscopies assisted by artificial intelligence could reduce future cancer diagnoses by up to 39%. NBC medical fellow Dr. Akshay Syal added through deep learning this kind of technology could detect cancer “better than the human eye” by about 13%.

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Continue reading “Resting Heart Rate, Heart Rate Variability: Is 2023’s Data Better Than 2022?” | >

Researchers at the University of Hong Kong (HKU) have designed an innovative pixelated, soft, color-changing system called a Morphable Concavity Array (MoCA).

Pixelated, soft, color-changing systems are malleable structures that can change color by manipulating light. They have applications in a wide range of industries, from medical bandages that change color if there is an infection, to foldable screens on smartphones and tablets, as well as wearable technology where sensors are integrated into the clothing fabric.

The research was co-directed by Professor Anderson Ho Cheung Shum from the Department of Mechanical Engineering at HKU, and Professor Mingzhu Li from the Institute of Chemistry, Chinese Academy of Sciences, and led by Dr. Yi Pan from the Department of Mechanical Engineering at HKU.

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