Tumor metastasis is a major cause of patient death. In order to improve the cure rate, tumor
markers are necessary to investigate because they can reflect the progression and …

Nucleic acid nanotechnology lays a foundation for the user-friendly design and synthesis of
DNA frameworks of any desirable shape with extreme accuracy and addressability …

Harnessing the programmable nature of DNA origami for controlling structural features in
crystalline materials affords opportunities to bring crystal engineering to a remarkable level …

Nanoparticles have long been recognized for their unique properties, leading to exciting
potential applications across optics, electronics, magnetism, and catalysis. These specific …

Controlling the three-dimensional (3D) nanoarchitecture of inorganic materials is imperative
for enabling their novel mechanical, optical, and electronic properties. Here, by exploiting …

DNA nanotechnology allows for the fabrication of nanometer‐sized objects with high
precision and selective addressability as a result of the programmable hybridization of …

Since its discovery in 2006, the DNA origami technique has revolutionized bottom-up
nanofabrication. This technique is simple yet versatile and enables the fabrication of …

The self-assembly of inorganic nanoparticles to larger structures is of great research interest
as it allows the fabrication of novel materials with collective properties correlated to the …

Field electron emission from carbon nanotubes (CNT) is preceded by the transport of
electrons from the cathode metal to emission sites. Specifically, a supporting layer …

Recent studies have demonstrated novel strategies for the organization of nanomaterials
into three-dimensional (3D) ordered arrays with prescribed lattice symmetries using DNA …