Inclusion complex between cisplatin and single-walled carbon nanotube: An integrated experimental and theoretical approach

Transmission electron microscopy (TEM) image and molecular model of cDDP@SWCNT inclusion complex. The cDDP aggregates are highlighted as dark spots inside of the nanotubes. [Display omitted] •Integrated experimental and theoretical analysis of cDDP@SWCNT.•Synthesis and characterization of cisplatin–...

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Published inInorganica Chimica Acta Vol. 447; pp. 38 - 44
Main Authors De Souza, Leonardo A., Nogueira, Camila A.S., Ortega, Paulo F.R., Lopes, Juliana F., Calado, Hállen D.R., Lavall, Rodrigo L., Silva, Glaura G., Dos Santos, Hélio F., De Almeida, Wagner B.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2016
Subjects
Carbon nanotube
Cisplatin
DFT
Drug delivery system
Raman spectra
RQ-MG
Raman spectra
CNHs
HR-TEM
DDS
CNPq
DFT
CNTs
EDS
DMF
FAPEMIG
RBM
Drug delivery system
SWCNT
cDDP
LanL2DZ
B3LYP
GMP
CP
CAPES
Cisplatin
Carbon nanotube
TG
MWCNT
BSSE
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Summary:Transmission electron microscopy (TEM) image and molecular model of cDDP@SWCNT inclusion complex. The cDDP aggregates are highlighted as dark spots inside of the nanotubes. [Display omitted] •Integrated experimental and theoretical analysis of cDDP@SWCNT.•Synthesis and characterization of cisplatin–carbon nanotube inclusion complex.•cDDP@SWCNT energetically favorable from quantum chemical calculations.•Raman spectra show that the ratio of intensity for G/D bands decreases.•Analysis of Raman features allow the characterization of the inclusion complex. This paper describes an integrated experimental and theoretical analysis for the synthesis and characterization of cisplatin/single-walled carbon nanotube inclusion complex (cDDP@SWCNT). Experimental data revealed the inclusion of cDDP into a short SWCNT, which was predicted to be energetically favorable by around −5.0kcalmol−1 through quantum chemical calculations. The Raman spectra show that the ratio of intensity for G/D bands decreases from 10.9 (pristine SWCNT) to 4.8 (inclusion complex), suggesting an increase of structural disorder after the drug inclusion. Moreover, it was observed a decrease of the wavenumber in the spectral range of the radial breathing modes (RBM) by ∼9cm−1 with the insertion of the cDDP molecules. As a continuation of the studies conducted by our group, through this theoretical and experimental work we expect to help experimentalists in the assignments of Raman spectra and contribute for characterization of such carbon-based drug delivery systems.
ISSN:0020-1693
1873-3255
DOI:10.1016/j.ica.2016.03.034