Synthesis and characterization of copper(II) dithiocarbamate complexes involving pyrrole and ferrocenyl moieties and their utility for sensing anions and preparation of copper sulfide and copper–iron sulfide nanoparticles

Bis(N‐(pyrrol‐2‐ylmethyl)‐N‐butyldithiocarbamato‐S,S′)copper(II) (1), bis(N‐(pyrrol‐2‐ylmethyl)‐N‐(2‐phenylethyl)dithiocarbamato‐S,S′)copper(II) (2), bis(N‐methylferrocenyl‐N‐(2‐phenylethyl)dithiocarbamato‐S,S′)copper(II) (3) and bis(N‐furfuryl‐N‐methylferrocenyldithiocarbamato‐S,S′)copper(II) (4) w...

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Bibliographic Details
Published in:Applied organometallic chemistry 2018-06, Vol.32 (6), p.n/a
Main Authors: Gurumoorthy, Govindasamy, Thirumaran, Subbiah, Ciattini, Samuele
Format: Article
Language:English
Subjects:
anion sensing
Anions
Boats
Chemistry
Coordination compounds
Copper
Copper compounds
copper sulfide
Copper sulfides
copper(II) dithiocarbamates
copper–iron sulfide
Decoloring
Density functional theory
Energy transmission
Infrared analysis
Infrared imagery
Infrared spectroscopy
Iron
Iron sulfides
Methylene blue
Nanoparticles
photodegradation
Photoluminescence
Rhodamine
Shipwrecks
Transmission electron microscopy
X-ray diffraction
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Summary:Bis(N‐(pyrrol‐2‐ylmethyl)‐N‐butyldithiocarbamato‐S,S′)copper(II) (1), bis(N‐(pyrrol‐2‐ylmethyl)‐N‐(2‐phenylethyl)dithiocarbamato‐S,S′)copper(II) (2), bis(N‐methylferrocenyl‐N‐(2‐phenylethyl)dithiocarbamato‐S,S′)copper(II) (3) and bis(N‐furfuryl‐N‐methylferrocenyldithiocarbamato‐S,S′)copper(II) (4) were prepared and characterized using elemental analysis and infrared and UV–visible spectroscopies. X‐ray diffraction (XRD) studies on 3 show that each copper centre adopts the square planar geometry by the coordination of four sulfur atoms of the metalloligand N‐methylferrocenyl‐N‐(2‐phenylethyl)dithiocarbamate. The CuS distances are symmetrical and are in the range 2.293–2.305 Å. The supramolecular architecture in complex 3 is sustained in the solid state by CH⋅⋅⋅π, CH⋅⋅⋅S, Fe⋅⋅⋅Fe and H⋅⋅⋅H interactions. Density functional theory calculations were carried out for 3. Anion (F−, Cl−, Br− and I−) binding studies with complex 1 were performed using cyclic voltammetry. Copper sulfide, copper–iron sulfide‐1 and copper–iron sulfide‐2 nanoparticles were prepared from complexes 2, 3 and 4, respectively, and they were characterized using powder XRD, transmission electron microscopy (TEM) and energy‐dispersive X‐ray, UV–visible, photoluminescence and infrared spectroscopies. TEM images of copper–iron sulfide‐1 and copper–iron sulfide‐2 reveal that the particles are spherical and oval shaped, respectively. Photocatalytic activities of as‐prepared nanoparticles were studied by decolourization of methylene blue and rhodamine‐B under UV light. It was found that copper–iron sulfide degrades methylene blue and rhodamine‐B much better than does copper sulfide. Copper(II) dithiocarbamate complexes containing pyrrole and ferrocene units have been prepared and characterized. Copper sulfide and copper‐iron sulfide nanoparticles have been prepared from copper(II) dithiocarbamate complexes. These as‐prepared nanoparticles show efficient photocatlytic activity in degradation of dyes.
ISSN:0268-2605
1099-0739
DOI:10.1002/aoc.4363