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Nanoscience and nanotechnology

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The Washington Post

Prof. Moungi Bawendi has been awarded the 2023 Nobel Prize in Chemistry for “fundamental discoveries in nanotechnology, particles once considered impossibly small to make,” reports Mark Johnson for The Washington Post. “In 1993, Moungi revolutionized the process, devising a way to create ‘seed,’ or beginner particles that could then be carefully controlled using temperature,” writes Johnson. “The method allowed him to stop the process to achieve particles of just the right size and quality.”

Nature

Prof. Moungi Bawendi has been named one of the winners of the 2023 Nobel Prize in Chemistry for his contributions to the study and development of quantum dots, “tiny molecules that interact with light in unusual ways,” reports Katharine Sanderson for Nature. “I didn’t think it would be me that would get this prize because we’re all working together on this,” says Bawendi. “There’s still a lot of exciting work to be done in this field.”

Reuters

Prof. Moungi Bawendi, Prof. Louis Brus of Columbia University and Alexei Ekimov of Nanocrystals Technology Inc., have been awarded the 2023 Nobel Prize in Chemistry for their work in the development of quantum dots, which are “now used to create color in flat screens, light emitting diode (LED) lamps and devices that help surgeons see blood vessels in tumors,” reports Niklas Pollard and Ludwig Burger for Reuters. “In 1993, Bawendi revolutionized the production of quantum dots, made up of clusters ranging from a few hundred to a few thousand atoms,” writes Pollard and Burger.

Associated Press

In an article about how researchers are exploring why ancient Roman and Mayan buildings are still standing, AP reporter Maddie Burakoff highlights how researchers from MIT found that an ancient Roman technique for manufacturing concrete gave the material “self-healing” properties. “We don’t need to make things last quite as long as the Romans did to have an impact,” says Prof. Admir Masic. If we add 50 or 100 years to concrete’s lifespan, “we will require less demolition, less maintenance and less material in the long run.”

Mashable

Ubiquitous Energy, an MIT startup, has created a transparent photovoltaic glass coating, called UE Power, that can turn any surface into a tiny solar panel, reports Teodosia Dobriyanova for Mashable. “The company, however, is prioritizing the use of UE Power on windows in an attempt to help buildings reduce their colossal climate footprint,” writes Dobriyanova.

The Boston Globe

Ginkgo Bioworks, a biotech company founded by Jason Kelly BS ’03, PhD ’08, Reshma Shetty PhD ‘08, Barry Canton PhD ’08, Austin Che PhD ’08 and Professor Tom Knight, is working to develop synthetic fragrances, reports Scott Kirsner for The Boston Globe.

Boston 25 News

Researchers at MIT have developed a new nanoparticle sensor that can detect cancerous proteins through a simple urine test. “The researchers designed the tests to be done on a strip of paper, similar to the at-home COVID tests everyone became familiar with during the pandemic,” writes Lambert. “They hope to make it as affordable and accessible to as many patients as possible.”

New Scientist

Researchers at the McGovern and Broad Institutes have developed a bacterial "nanosyringe" that can inject large proteins into specific cells in the body, which could lead to safer and more effective treatments for a variety of conditions, including cancer, reports Michael Le Page for New Scientist. “The fact that this can load a diversity of different payloads of different sizes makes it unique amongst protein delivery devices,” says graduate student Joseph Kreitz.

Scientific American

Ingrid Wickelgren at Scientific American highlights a new study from researchers at the McGovern and Broad Institutes, in which they used a bacterial ‘nanosyringe’ to inject large proteins into human cells. “The syringe technology also holds promise for treating cancer because it can be engineered to attach to receptors on certain cancer cells,” writes Wickelgren.     

NPR

Graduate student Crystal Owens speaks with NPR correspondent Miles Parks about her study which sought to find out the perfect ratio for breaking apart an Oreo cookie. “What we actually found was that all of the results were basically the same,” says Owens. “You can’t do it wrong because there’s no way to do it right.”

The Wall Street Journal

Wall Street Journal reporter Aylin Woodward writes about how graduate student Crystal Owens and undergraduate Max Fan set out to solve a cookie conundrum: whether there was a way to twist apart an Oreo and have the filling stick to both wafers. Woodward writes that for Owens, the research “was a fun, easy way to make her regular physics and engineering work more accessible to the general public.”

Popular Science

MIT engineers have developed a new technique that enables bug-sized aerial robots to handle a sizeable amount of damage and still fly, reports Andrew Paul for Popular Science. “The new repair techniques could come in handy when using flying robots for search-and-rescue missions in difficult environments like dense forests or collapsed buildings,” writes Paul.

Wired

Researchers at MIT have discovered what makes ancient Roman concrete “exponentially more durable than modern concrete,” reports Jim Morrison for Wired. “Creating a modern equivalent that lasts longer than existing materials could reduce climate emissions and become a key component of resilient infrastructure,” writes Morrison.

Boston Magazine

MIT researchers are developing targeted drug delivery through the use of nanoparticles to aid in cancer treatment, reports Simone Migliori for Boston Magazine. “Designed to circulate through the bloodstream, these small but mighty travelers [nanoparticles] can deliver a chemotherapy drug directly to a target cancer cell without disturbing any healthy cells along the way,” writes Migliori. “In doing so, patients may be able to avoid some of the worst side effects of chemotherapy drugs while still effectively treating their cancer.”

Scientific American

MIT researchers have discovered that ancient Romans used calcium-rich mineral deposits to build durable infrastructure, reports Daniel Cusick for Scientific American. This “discovery could have implications for reducing carbon emissions and creating modern climate-resilient infrastructure,” writes Cusick.