Affiliation:
1. Department of Theoretical Physics Hanoi University of Science and Technology 01 Dai Co Viet Road Hai Ba Trung District Hanoi 11615 Vietnam
2. Department of Physics Hong Duc University 565 Quang Trung Dong Ve district ThanhHoa City 40130 Vietnam
Abstract
The chain‐ and ribbon‐like structural hierarchies are used to design two nanoporous polymorphs composed of only four‐member and six‐member rings of ZnO as primary building blocks in cubic lattice frameworks. Specifically, the bottom‐up polymeric assembly of these small simple clusters into high cubic symmetric phases is considered, with energetic, dynamic, and mechanical stabilities proven by density‐functional‐based calculations. Both phases are rivaling with those of known cage‐like nanoporous polymorphs in many porous characteristics while preserving an intrinsic wide bandgap from ZnO tetragonal bonding. Furthermore, the design scheme is feasible to apply with different morphology motifs or extend to more cluster prototypes and materials.