Manipulating Chemical Processes by Pseudosolid Spatial Limitation.

It is always preferred to perform chemical processes in liquid or gas phases because of the merits of operation convenience, reaction efficiency, and component homogeneity. However, tremendous efforts have to be made to purify the final product and minimize procedure losses unless a well-defined chemical mechanism is found. Herein, an unconventional chemical functioning system accommodating molecule-in-pseudosolid manipulation is reported. It entails the properties of enhanced molecular effective collision and directional guidance for delicate chemical reaction spatial controls. This design achieves facilitated rates on multicomponent chemical reactions with pros of unique simultaneous final product separation through intrapseudosolid spatial limitation. Localized homogeneous component mixing, pronounced molecular collision, and pure product separation happening in this action surmount the obstacles of conventional chemical operation with a straightforward sketch. A path toward fine chemistry is therefore paved, where traditional thoughts on beneficial reaction environments may be reconsidered.