Shape‐persistent conjugated mesogens with oligothiophene arms of different lengths have been synthesized. Such mesogens possess free intrinsic space between their conjugated arms. They form columnar liquid‐crystalline phases, in which the void is filled by dense helical packing in the neat phase similar to an oligo(phenylene vinylene) derivative of equal size. The void can also be compensated by the inclusion of the small acceptor molecule 2,4,7‐trinitrofluorenone. In solution, the acceptor interacts with the core as the largest π‐surface, while in the solid material, it is incorporated between the arms and sandwiched by the star‐shaped neighbours along the columnar assemblies. The TNF acceptors are not nanosegregated from the star‐shaped donors, thus the liquid crystal structure converts to a nano‐reservoir for TNF (endo‐receptor). These host–guest arrangements are confirmed by comprehensive X‐ray scattering experiments and solid‐state NMR spectroscopy. This results in ordered columnar hexagonal phases at high temperatures, which change to helical columnar mesophases or to columnar soft crystals at room temperature.
Carbene‐stabilized symmetrical and unsymmetrical dicationic tetraboranes, featuring an electron‐precise tetraborane chain, were synthesized and fully characterized. Reactions of these tetraboranes with reductants/bases give rise to different outcomes according to the conditions employed, including: 1) reduction and rearrangement of the tetraborane chain to give a zwitterionic alkylidene borate–borenium species; 2) cleavage of the tetraborane chain to afford a 1,3‐azaborinine; and 3) reduction of the supporting ligands to provide a diamino dipotassium salt. The zwitterionic alkylidene borate–borenium species can be viewed as an analogue of the base‐stabilized diborenes. NMR spectroscopy and DFT calculations reveal a highly polarized B−B bond in the zwitterionic alkylidene borate–borenium, in which the formal oxidation states of the boron atoms can be considered as −1 and +2. These results suggest the considerable potential of tetraboranes as synthons for low‐valent boron species.
The Cover Feature shows star‐shaped, shape‐persistent liquid‐crystalline (LC) hosts with trinitrofluorenone guests (aliphatic chains of the LC hosts are omitted). The star mesogens (orange) provide intrinsic free space for the uptake of up to three trinitrofluorenone guests (cyan) between the oligothiophene arms in columnar mesophases. These systems act as nanoreservoirs for the guest molecules, which considerably stabilize the columnar self‐assembly. More information can be found in the Full Paper by A.‐C. Pöppler, M. Lehmann, and co‐workers.
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