"DNA-Based Nanostructures Forge Ultra-Strong Metamaterials"
TL;DR Summary
Researchers at Northwestern University have developed a super-strong colloidal crystal metamaterial by using DNA as glue to hold together metal nanostructures. By constructing metallic nanoparticles in various shapes and applying strands of DNA as glue, the researchers were able to create colloidal crystal metamaterials with different properties and shapes. The resulting metamaterials were found to be ultra-strong, stiff, and capable of maintaining their shape under extreme pressure. This development could have applications in space-based products and the creation of lighter and more efficient electronic devices, particularly in medical applications.
Topics:science#additive-manufacturing#colloidal-crystal-metamaterials#dna#nanostructures#nanotechnology#science-and-technology
- Using DNA as glue to hold nanostructures together and build ultra-strong colloidal crystal metamaterials Phys.org
- Scientists Develop Incredibly Lightweight Material 4 Times Stronger Than Steel SciTechDaily
- DNA and glass mix creates ultralight high-strength material Interesting Engineering
- Scientists Create New Material Four Times Stronger Than Steel Greek Reporter
Reading Insights
Total Reads
0
Unique Readers
1
Time Saved
2 min
vs 3 min read
Condensed
83%
523 → 89 words
Want the full story? Read the original article
Read on Phys.org