Haifeng Yang

TL;DR: Organic porous materials—a class of advanced materials— possess enormous potential for many high-tech applications, such as bioreactors, dielectrics, sensors, microelectrophoresis, thermal insulation, and catalysts, but large porosity has rarely been reported.

TL;DR: In this paper, a review of the results of research into replica mesostructures by nanocasting in recent years from the viewpoint of synthesis is presented, and problems that are often encountered in the procedure are discussed with several solutions.

TL;DR: In this article, microwave-digested mesoporous materials are shown for the first time to be powerful hosts (templates) for the production of various crystalline metal oxide nanowire (the Figure shows a model) or nanosphere arrays via a simple impregnation and thermolysis synthesis.

TL;DR: On the basis of the consideration of "host-guest" chemistry, the interactions between guest molecules are highlighted in the synthesis of nonsiliceous mesoporous materials by the "soft-template" and "hard- template" approaches.

TL;DR: The results show that the flexible inorganic framework, high content of organic matrix, and nonpenetration of poly(ethylene oxide) segments may facilitate the structural evolution of ordered mesoporous silica materials with highly branched channels.