TY - JOUR
T1 - Net-clipping :
T2 - an approach to deduce the topology of metal-organic frameworks built with zigzag ligands
AU - Ortín-Rubio, Borja
AU - Ghasempour, Hosein
AU - Guillerm, Vincent
AU - Morsali, Ali
AU - Juanhuix, Judith
AU - Imaz, Inhar
AU - Maspoch Comamala, Daniel
PY - 2020
Y1 - 2020
N2 - Herein we propose a new approach for deducing the topology of metal-organic frameworks (MOFs) assembled from organic ligands of low symmetry, which we call net-clipping. It is based on the construction of nets by rational deconstruction of edge-transitive nets comprising higher-connected molecular building blocks (MBBs). We have applied net-clipping to predict the topologies of MOFs containing zigzag ligands. To this end, we derived 2-connected (2-c) zigzag ligands from 4-c square-like MBBs by first splitting the 4-c nodes into two 3-c nodes and then clipping their two diagonally connecting groups. We demonstrate that, when this approach is applied to the 17 edge-transitive nets containing square-like 4-c MBBs, net-clipping leads to generation of 10 nets with different underlying topologies. Moreover, we report that literature and experimental research corroborate successful implementation of our approach. As proof-of-concept, we employed net-clipping to form three new MOFs built with zigzag ligands, each of which exhibits the deduced topology.
AB - Herein we propose a new approach for deducing the topology of metal-organic frameworks (MOFs) assembled from organic ligands of low symmetry, which we call net-clipping. It is based on the construction of nets by rational deconstruction of edge-transitive nets comprising higher-connected molecular building blocks (MBBs). We have applied net-clipping to predict the topologies of MOFs containing zigzag ligands. To this end, we derived 2-connected (2-c) zigzag ligands from 4-c square-like MBBs by first splitting the 4-c nodes into two 3-c nodes and then clipping their two diagonally connecting groups. We demonstrate that, when this approach is applied to the 17 edge-transitive nets containing square-like 4-c MBBs, net-clipping leads to generation of 10 nets with different underlying topologies. Moreover, we report that literature and experimental research corroborate successful implementation of our approach. As proof-of-concept, we employed net-clipping to form three new MOFs built with zigzag ligands, each of which exhibits the deduced topology.
KW - Experimental research
KW - Metalorganic frameworks (MOFs)
KW - Molecular building blocks
KW - New approaches
KW - Organic ligands
KW - Proof of concept
UR - https://www.scopus.com/pages/publications/85086517381
U2 - 10.1021/jacs.0c03404
DO - 10.1021/jacs.0c03404
M3 - Article
SN - 0002-7863
VL - 142
SP - 9135
EP - 9140
JO - Journal of the American Chemical Society
JF - Journal of the American Chemical Society
IS - 20
ER -