3D Freestanding DNA Nanostructure Hybrid as a Low-Density High-Strength Material

摘要

Structural DNA nanotechnology can produce a wide range of 3D nanostructures with programmable structure and size at <5 nm resolution. However, it is challenging to dry these structures without capillary force-induced damage. As a result, the applications of 3D DNA nanostructures have long been limited in aqueous environments. Ready access to free-standing 3D DNA nanostructures in the dry state could revolutionize many research areas, especially in the development of low-density, high-strength materials. Here we report a method to obtain free-standing wireframe 3D DNA tetrahedra in air on a solid substrate, such as SiO2 and mica, by absorbing uranyl acetate and lyophilization. The dried DNA tetrahedron structure, 93 +/- 2 nm in height, withstands 42 +/- 22 nN of loading force. The effective hardness (9.1 +/- 5.1 MPa) and Young's modulus (77 +/- 48 MPa) of this low-density (70.7 kg/m(3)) DNA-inorganic hybrid nanostructure are comparable to other reported low-density high-strength materials.