DNA has become one of the most extensively used molecular building blocks for
engineering self-assembling materials. DNA origami is a technique that uses hundreds of …

Recent advances in nonlinear optics, hot electrons for renewable energy (eg, solar cells and
water‐splitting), acousto‐optics, nanometalworking, nanorobotics, steam generation, and …

From a physical perspective, nanofluidics represents an extremely rich domain. It hosts
many mechanisms acting on the nanoscale, which combine together or interact with the …

Dynamic DNA structures, a type of DNA construct built using programmable DNA self‐
assembly, have the capability to reconfigure their conformations in response to …

The nuclear pore complex (NPC) is the gatekeeper for nuclear transport in eukaryotic cells.
A key component of the NPC is the central shaft lined with intrinsically disordered proteins …

The field of nanoscale electrochemistry has received enormous attention in the last several
years with numerous exciting advancements reported in several rapidly growing areas …

Nanopore platform holds a great fascination that attracts increasing interests in research and
leads the development of various domains. Herein we first briefly introduce the …

Nanopore technology is a promising label-free detection method. However, challenges exist
for its further application in sequencing, clinical diagnostics and ultra-sensitive single …

We explored the application of two-dimensional covalent organic frameworks (2D COFs) in
single molecule DNA analysis. Two ultrathin COF nanosheets were exfoliated with pore …

DNA origami enables the bottom-up construction of chemically addressable, nanoscale
objects with user-defined shapes and tailored functionalities. As such, not only can DNA …