Ultra thin two-dimensional (2D) materials (including layered and non layered structures) are expected to become electrocatalysts. Their catalytic performance is limited by their natural electronic structure and 2D stacking. Adjusting the 2D structure with exotic atoms can modify the chemical affinit

Controllable protein nanostructures refer to the process of manipulating and controlling protein assembly at the nanoscale to achieve domain confinement and precise spatial arrangement.

The interaction between electrons and phonons guides the energy flow in photoexcited materials and controls the appearance of related phases. The tracking of electron or X-ray pulses in non-equilibrium structural dynamics reveals the strength of electron phonon interactions, decay channels of strong

Pills are the cornerstone of medicine, but they are difficult to swallow. Although liquid formulations are easier to ingest, they lack the ability to use excipients for local treatment and cannot serve as controlled release devices.

Developing photocatalysts with continuous electron extraction and rapid proton transfer can dynamically accelerate artificial photosynthesis, but this remains a challenge.

Developing photocatalysts with continuous electron extraction and rapid proton transfer can dynamically accelerate artificial photosynthesis, but this remains a challenge. In this article, we report a topology guided synthesis of highly crystalline triazine covalent organic frameworks (COFs) with un