| Literature DB >> 28400608 |
Nazir Ahmad1,2, Hussein A Younus1,2,3, Adeel H Chughtai4, Kristof Van Hecke5, Muhammad Danish6, Zhang Gaoke2, Francis Verpoort7,8,9.
Abstract
The coordination networking of discreteEntities:
Mesh:
Substances:
Year: 2017 PMID: 28400608 PMCID: PMC5429760 DOI: 10.1038/s41598-017-00733-4
Source DB: PubMed Journal: Sci Rep ISSN: 2045-2322 Impact factor: 4.379
Figure 1(A) Post-synthetic modification of alkyne-functionalized CuMOP into its extended networks using azide substituted organic bridging linkers (4-azidobenzoate (4-N3B−) = N1 and 5-azidoisophthalate (5-N3IP−2) = N2) via click reaction and their further coordination with metal(II) ions. (B) FTIR spectra of the H(p-N3B), H2(5-N3IP), CuMOP, and polymeric networks.
Figure 2Field emission scanning electron microscopic (FE-SEM) images (A and B), energy-dispersive spectroscopic (EDS) mapping analysis for copper (C), zinc (D), and their overlay mapping (E), and EDS compositional analysis of the CuMOP-N1(Zn) obtained from overall elemental mapping analysis (F).
Figure 3HR-TEM images of the CuMOP-N1(Cu) polymer (A) and (B) showing the regular distribution of spherical cages within the extended coordination network, and (C) the ligand oriented stepwise construction of metal-organic extended network based on MOPs using their edges (ligands) via click reaction and further metal coordination.
Figure 4Metal-organic frameworks based on diisophthalate bridging linker.
Figure 5Representation of (A) the square Cu2(CO2)4 SBU’s and rectangular L4−- SBU’s; two different polyhedral pores (B) and (C) along with the polyhedral packing of these pores in the 3D framework of Cu-MOF (D) and (E) with yellow and blue spheres embody the spheres occupying the cavities, taking into account the interior VDW radii. Hydrogen atoms are omitted for clarity.
Figure 6Release profiles of the drugs (A) 5-flourouracil (5-FU) and (B) caffeine (CAF) from the drug-loaded materials. Loading contents for CuMOP-N1(Cu): 32.21% (5-FU) and 39.74% (CAF); CuMOP-N2(Cu): 32.37% (5-FU) and 35.58% (CAF); Cu-MOF 19.49 (5-FU) and 23.76% (CAF).