Two dimensional self-assembly of bis-acylureas having various functional end groups

Bis-acylureas with various end functional groups self-organize upon cooling from hot solutions forming superstructures. Unless the functionalities are bulky, rigid, or reactive at crystallization conditions, the bis-acylureas self-assemble with lamellar molecular packing. The resulting nanosheet structures have flat surfaces that are molecularly flat over hundreds of nanometers. [Display omitted] ► Bis-acylureas with various end functional groups were synthesized. ► They self-organize upon cooling from hot solutions forming superstructures. ► Unless the functionalities are bulky, rigid, or reactive, the bis-acylureas self-assemble with lamellar molecular packing. ► The resulting nanosheet structures have flat surfaces that are molecularly flat over hundreds of nanometers. We present the synthesis and morphology study of thirteen bis-acylurea molecules with various functional end groups. The bis-acylureas have two acylurea groups, NH CO NH CO , divided by a pentamethylene spacer, (CH 2) 5 , and two symmetric functional end groups, such as, aliphatic, benzyl, mono- and bi-thiophenyl, sulfur-containing, and propargyl (HC CCH 2 ) moieties. The bis-acylureas were synthesized by the coupling reactions of ureas with pimeloyl chloride or pimelic acid. Upon cooling from hot isotropic solutions, the bis-acylureas spontaneously form supermolecules. In the cases of aliphatic, benzyl, mono- and bi-thiophenyl functional groups, two dimensional supramolecular structures with molecularly flat surfaces were formed. Single crystal X-ray diffraction results demonstrate that each bis-acylurea molecule forms biaxial hydrogen bonds with four adjacent molecules forming a grid-like crystalline structure. Among the bis-acylureas with sulfur-containing end groups, those with sulfide ( S ) and disulfide ( SS ) moieties self-organize into two dimensional superstructures, while those with thiol ( SH) and bulky protecting group ( S trityl) precipitate with irregular shapes. The bis-acylurea with propargyl end groups form superstructures of low order possibly due to the steric effect between the rigid moieties. However, the derivatives prepared by click reactions have lamellar molecular packing similar to those of bis-acylureas forming multilayered nanosheet structures.