Shangbin Jin

TL;DR: CMPs are unique in that they allow the complementary utilization of π-conjugated skeletons and nanopores for functional exploration and have shown great potential for challenging energy and environmental issues, as exemplified by their excellent performance in gas adsorption, heterogeneous catalysis, light emitting, light harvesting and electrical energy storage.

TL;DR: It is anticipated that the extension of the present azine-linked pyrene frameworks would not only increase the structural diversity but also expand the scope of functions based on this highly stable class of covalent organic frameworks.

TL;DR: It is shown that the π-conjugated organic framework is useful for high on-off ratio photoswitches and photovoltaic cells, and may constitute a step towards realizing ordered semiconducting porous materials for innovations based on two-dimensionally extended π systems.

TL;DR: A new strategy to construct CTFs (CTF‐HUSTs) via a polycondensation approach, which allows the synthesis of CTFS under mild conditions from a wide array of building blocks, and Interestingly, these C TFs display a layered structure.

TL;DR: Covalent triazine frameworks (CTFs) represent an exciting new type of porous organic material (POP), which have some unique characteristics, i.e., aromatic CN linkage (triazine unit) and the absence of any weak bonds as mentioned in this paper.