Abstract
Metal organic networks (MONs) are defined as one, two and three dimensional unique complex structures of porous material and subclass of polymer’s coordination. These networks also show extreme surface area, morphology, excellent chemical stability, large pore volume, highly crystalline materials. The major advantages of MONs are tailorability, structural diversity, versatile applications, highly controllable nano-structures and functionality. So, the multi-functional applications of these MONs are made them more helpful tools in many fields of science in recent decade. In this paper, we light on the two different MONs with respect to the number of increasing layers of metal and organic ligands together. We define the novel multiplicative Zagreb connection indices (ZCIs) such that multiplicative fourth ZCI and multiplicative fifth ZCI. We also compute the main results for multiplicative Zagreb connection indices of two different MONs (zinc oxide and zinc silicate).
Highlights
Metal organic networks (MONs) are most popular chemical compounds which consist of metal ions and organic ligands
MONs are widely used in gas and energy storage devices, assessment of chemicals, separation and purification of different gasesm, sensing, heterogeneous catalysis, environmental hazard, adsorption analysis, toxicology, biomedical applications and biocompatibility
The cancer imaging, drug delivery and biosensing have been cured with the help of biomedical applications of zinc based MONs
Summary
Metal organic networks (MONs) are most popular chemical compounds which consist of metal ions and organic ligands. Nowa-days, these degree and connection number based TIs are abundantely used in the topological properties of four-layered neural networks, see [35]. Zhao et al [40] computed reverse degree based TIs of zinc based MONs. a variety of networks has been defined by using connection number (or leap degree) based TIs, see [41,42,43,44,45,46,47].
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