Dual-Axis Alignment of Bulk Artificial Water Channels by Directional Water-Induced Self-Assembly

Abstract: Approaching single-crystal-like morphology has always been important in driving materials toward their optimal properties. With only orientational order, liquid crystal (LC) materials require dual-axis orientational control to optimize their structural order in the bulk phase. However, current external guiding fields such as electrical, magnetic, and mechanical guiding fields are less effective in aligning amphiphilic LCs. In this study, water is developed as an excellent structural stabilizer and orientation-… Show more

“…Wang's group developed the process of water-induced assembly of amphiphilic discotic molecules into a hexagonal columnar phase. 85 In this case, water not only acted as a morphological modulator but also as an orientational director, which enhanced the phase stability, facilitated dual-axis alignment, and reduced the packing disorder in the coassembled columnar phase.…”

Supramolecular coassembly: monomer pair design, morphology regulation and functional application

“…Wang's group developed the process of water-induced assembly of amphiphilic discotic molecules into a hexagonal columnar phase. 85 In this case, water not only acted as a morphological modulator but also as an orientational director, which enhanced the phase stability, facilitated dual-axis alignment, and reduced the packing disorder in the coassembled columnar phase.…”

Supramolecular coassembly: monomer pair design, morphology regulation and functional application

“…The nanochannels of aligned functional groups exhibit specific properties due to ionic interactions. 10,11,51–54…”

Development of liquid-crystalline smectic nanoporous membranes for the removal of SARS-CoV-2 and waterborne viruses

Molecular parameters including fluorination program order during hierarchical helical self-organization of self-assembling dendrons