Here we apply a chiral recognition strategy to a new family of tubular covalent cages to create both 1D porous nanotubes and 3D diamondoid pillared porous networks.

Yet, despite the successful transition from 3D to 2D, the barrier separating 2D and 1D has been significantly more challenging to overcome.

In a paper published in National Science Review, a team of scientists from Peking University report the experimental evidence of the 1D Fermi arc states on atomic-scale ledges of the Weyl ...

While 1D and 2D photonic crystals have been used in various applications, unlocking the secret to producing 3D photonic crystals with a complete photonic bandgap in the visible range has been fraught ...

US-based oil and gas company Hess has announced its decision to relinquish its interest in Block 59 offshore Suriname. The ...

Physicists have discovered a room-temperature transition between 1D and 2D electrical conduction states in the topological insulator bismuth iodide.

Crystal engineering modifies 2D metal halide perovskites into 1D nanowires Date: June 6, 2024 Source: Purdue University Summary: Engineers have created a patent-pending method that creates layered ...

Purdue researchers’ crystal engineering modifies 2D metal halide perovskites into 1D nanowires Purdue semiconductor nanowires show promising applications in nanophotonics and nanoelectronics ...