"DNA Moiré Superlattices are the focus of a study now published in Nature Nanotechnology. Credit: University of Stuttgart / 2nd Physics Institute. In a stunning leap forward, scientists have engineered DNA to act as a molecular architect, building intricate moiré superlattices with unprecedented control." (ScitechDaily, These DNA Structures Could Rewrite the Rules of Light, Sound, and Matter)
"By programming twist angles and geometric patterns directly into DNA strands, researchers have created self-assembling nanostructures that could revolutionize everything from optics to quantum materials. These DNA-built lattices form on their own in solution, no manual stacking required, opening doors to materials that guide light, filter spin, or vibrate in precisely tuned ways — all at the nanoscale." (ScitechDaily, These DNA Structures Could Rewrite the Rules of Light, Sound, and Matter)
The DNA can make the self-assembly layers possible. DNA is the thing that can revolutionize R&D technology forever. The DNA can make it possible to create synthetic Moiré superlattices. The ability to make the nano-scale lattices and put them together makes it possible to create nanostructures like nanofibers. The nanofiber is formed from a series of lattices that are a little bit twisted. That means every layer of this structure has a slightly different angle from the last one. And that makes the structure that is the series of angles look like a solid string.
This thing makes it possible to create structures that are self-assembly. The DNA molecules can control those Moiré superlattices and make them at the right points. That thing can revolutionize sound, light, and matter. Those layers can change their form when some kind of wave hits them. Those layers can also send counter waves to incoming waves. That can make it possible to make weaker echoes from the layer.
And that makes DNA-controlled nanotechnology possible. The DNA-controlled nanomachine can make more complicated things than the simple nanomachine that operates based on non-organic data storage. The DNA molecule can store lots of information. That molecule can make nanorobots with complicated and versatile operations possible. The self-assembly nanostring can make it possible to create systems that can close blood vessels to the tumors.
Another way to make nanotechnical, two-component medicines. The idea is that two nanomachines carry two molecules into the wanted cell. The self-assembly molecules can also act as the medicine themselves. The system can create a nanostring that can have a self-assembly mode. When bits of the nanostructure slip into the cell, they start to form larger structures. And then that structure can lock the ion pump open. There can be a molecule in that nanostring that makes the cell remove it through the ion pump. Basically, that means the other side of the molecule is ionic, and another is anionic.
When that long molecule travels through the ion pump, it will start to hang on that pump. If the nanostring has the nutrient molecule on the other side, it can put the molecule back within the ion pump. Or, the molecule can be so big that it cannot pass the ion pump. But those systems require self-assembly molecules that can travel in the cell.
When those machines are in the cell, they connect those molecules. And that activates medicines. When we think about things like intelligent bubbles that can destroy cancer cells and bacteria, the problem is simple. How to make those bubbles travel into the wanted cells. One solution can be the slime that makes the DNA travel to the cells. The bubbles that are in that slime will also slip into the cell. And then the ultrasound starts to oscillate them. The idea is that those bubbles will start to multiply. The problem is that those bubbles must vanish when the cell is dead. The answer can be the DNA coffin of whisk. The DNA coffin or harp will travel in the cell. And then that molecule starts to oscillate, making pressure waves in the cell.
https://phys.org/news/2025-07-programmable-dna-moir-superlattices-material.html
https://pubs.acs.org/doi/10.1021/acsami.4c13135
https://www.sciencedirect.com/science/article/abs/pii/S2352940724000477
https://scitechdaily.com/these-dna-structures-could-rewrite-the-rules-of-light-sound-and-matter/
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