{"id":20377,"date":"2022-10-24T12:23:57","date_gmt":"2022-10-24T12:23:57","guid":{"rendered":"https:\/\/peymantaeidi.net\/stem-cell\/?p=20377"},"modified":"2022-10-24T13:16:08","modified_gmt":"2022-10-24T13:16:08","slug":"dna-helps-colloidal-crystals-pull-themselves-together","status":"publish","type":"post","link":"https:\/\/peymantaeidi.net\/stem-cell\/2022\/10\/24\/dna-helps-colloidal-crystals-pull-themselves-together\/","title":{"rendered":"DNA helps colloidal crystals pull themselves together"},"content":{"rendered":"

\u201cThese are remarkable materials \u2013 even damage to skin, which has an innate and remarkable ability to regenerate, leaves scars. In this case that doesn\u2019t happen. The DNA code in these crystals guides them back to their original states.”Chad Mirkin, Northwestern University<\/cite><\/p><\/blockquote>\n

Researchers at Northwestern University have uncovered a previously unknown property of colloidal crystals, which are highly ordered three-dimensional arrays of nanoparticles.<\/p>\n

The team engineered colloidal crystals possessing complementary strands of DNA and found that dehydration crumpled the crystals, breaking down the DNA hydrogen bonds. But when the researchers added water, the crystals bounced back to their original state within seconds.<\/p>\n

The new study demonstrates the shape memory that occurs after changes to a colloidal crystal\u2019s structure and that is not accessible in other types of crystals. In response to external stimuli, reversible structural changes in these new materials could lead to associated dynamic functional changes that make them useful in chemical and biological sensing, optics and soft robotics. The researchers report their findings in a paper in Nature<\/em><\/a>.<\/p>\n

\u201cThe deformed crystal has completely different properties when it\u2019s broken down,\u201d said Northwestern\u2019s Chad Mirkin, who led the study. \u201cBut DNA retraces its steps. Imagine if a house was destroyed by a hurricane, but then that every nail and board returned to their original places to reform the house after the storm passed. That\u2019s essentially equivalent to what is happening here with these crystals at the nanoscale.\u201d<\/p>\n

A nanotechnology pioneer, Mirkin is professor of chemistry in the Weinberg College of Arts and Sciences at Northwestern and director of the International Institute for Nanotechnology. He is also a professor of chemical and biological engineering, biomedical engineering and materials science and engineering in the McCormick School of Engineering and a professor of medicine in Northwestern University\u2019s Feinberg School of Medicine.<\/p>\n

The new property, which is a type of \u2018hyperelasticity coupled with shape memory\u2019, is controlled by the specific sequences of the nanoparticle-interconnecting DNA strands, and influences the object\u2019s structure and compressibility. Because of the crystal\u2019s plasticity, it can break down and then come back together.<\/p>\n

The discovery builds on work that Mirkin began in 1996. Back then, his research group reported how DNA could be used as a sequence-encoded bonding material, a glue that can be used to build colloidal crystals. Some of these colloidal crystals have structures and properties akin to conventional crystals found in nature, while others have structures and properties that have never been found in nature.<\/p>\n

In the paper, the authors describe a new way of making crystals much larger than have ever been made before \u2013 large enough that they can be observed with the naked eye. As well as leading to the shape-memory discovery, this development allowed the researchers to uncover new ways to use crystals as force and chemical detectors.<\/p>\n

Mirkin said he\u2019s excited to see how the shape-memory property of these crystals will be used, for example, in flow sensors in microscale fluidic devices and in detectors for chemical and biological molecules. He is also considering ways to use the unique crystals to make materials capable of withstanding extraordinary damage and rebounding back to their original states.<\/p>\n

\u201cThese are remarkable materials \u2013 even damage to skin, which has an innate and remarkable ability to regenerate, leaves scars,\u201d Mirkin said. \u201cIn this case that doesn\u2019t happen. The DNA code in these crystals guides them back to their original states. This ability could aid in controlling chemical reactions and creating new classes of light switches, where \u2018on\u2019 is the conventional crystal, and \u2018off\u2019 is the deformed one, triggered by tiny changes in flow and force.\u201d<\/p>\n

This story is adapted from material from Northwestern University<\/a>, with editorial changes made by Materials Today. The views expressed in this article do not necessarily represent those of Elsevier. Link to original source<\/a>.<\/em><\/p>\n","protected":false},"excerpt":{"rendered":"

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