%0 Journal Article
%T Structural Engineering of Lowİ\Dimensional Metal¨COrganic Frameworks: Synthesis, Properties, and Applications
%A Lin Zhang
%A Ruilian Yin
%A Wenhui Shi
%A Wenxian Liu
%A Xilian Xu
%J Archive of "Advanced Science".
%D 2019
%R 10.1002/advs.201802373
%X Lowİ\dimensional metal¨Corganic frameworks (LD MOFs) have attracted increasing attention in recent years, which successfully combine the unique properties of MOFs, e.g., large surface area, tailorable structure, and uniform cavity, with the distinctive physical and chemical properties of LD nanomaterials, e.g., high aspect ratio, abundant accessible active sites, and flexibility. Significant progress has been made in the morphological and structural regulation of LD MOFs in recent years. It is still of great significance to further explore the synthetic principles and dimensionalİ\dependent properties of LD MOFs. In this review, recent progress in the synthesis of LD MOFİ\based materials and their applications are summarized, with an emphasis on the distinctive advantages of LD MOFs over their bulk counterparties. First, the unique physical and chemical properties of LD MOFİ\based materials are briefly introduced. Synthetic strategies of various LD MOFs, including 1D MOFs, 2D MOFs, and LD MOFİ\based composites, as well as their derivatives, are then summarized. Furthermore, the potential applications of LD MOFİ\based materials in catalysis, energy storage, gas adsorption and separation, and sensing are introduced. Finally, challenges and opportunities of this fascinating research field are proposed
%K catalysts
%K electrode materials
%K lowİ\dimensional nanomaterials
%K metal¨Corganic frameworks
%K sensors
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6662104/