https://orcid.org/0000-0003-3168-7119
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Abstract
DSC and calorimetric studies of multi-walled carbon nanotubes (MWCNTs) with average diameters in the range 7, 9 and 18 nm were carried out. MWCNTs were obtained by the CVD method. The kinetic processes in MWCNTs were studied from room temperature to 550 °C in a nitrogen flow using differential scanning calorimetry (DSC) on a Perkin – Elmer — 8000. It was found that exo- and endothermic peaks are not observed on the DSC curves after water evaporation. This indicates that all studied MWCNTs have a small number of defects, functional groups, and other impurities. The heat capacity of MWCNTs was measured by the relaxation method in the temperature range from 2 to 275 K by using PPMS. In the temperature dependences of the specific heat were observed that for MWCNTs with the decrease of the temperature below 20 K the curves shift to lower values with an increase the average diameter. The main result was that at temperatures below 45 K with the decreasing of the nanotubes diameter the ratio of heat capacity of nanotubes to the heat capacity of graphite increases. The perfection of structure and low amount of the defects, functional groups and impurity contamination for MWCNTs were demonstrated in the comparison of the XPS and NEXAFS spectra for these nanotubes with CVD prepared nanotubes (18 nm) after mechanical and chemical functionalization.
Acknowledgments
M.S. Barabashko, S.N. Nesov, P.M. Korusenko, V.G. Geidarov, A.N. Ponomarev, D.V. Sokolov are thankful to the director and administrative staff of the Helmholtz-Zentrum Berlin, and coordinators of the Russian German laboratory of BESSY II synchrotron for the allocation of synchrotron radiation beamtime, assistance in the XPS and NEXAFS investigations, accommodation and travel support in the frame of the project HZB RP No. 19208770. M.S. Barabashko is grateful for the partial support of this study by Grant for young scientist No. 0119U102391 of NAS of Ukraine and support by Scholarship for Young Scientists for research visit to W. Trzebiatowski INTiBS PAS, Poland, Wroclaw. The work of A.N. Ponomarev is performing according to the Government research assignment for ISPMS SB RAS, project No. III.23. The investigations of V.L. Kuznetsov and S.I. Moseenkov are supporting by Ministry of Science and Higher Education of the Russian Federation. The work of P.M. Korusenko is supporting by a grant from St. Petersburg State University Event 3 (id: 46372830).