Authors | N.A. Chan1, V.V. Chakov2, A.P. Kuzmenko1 , S.G. Emelyanov2, L.M. Chervyakov2, M.B. Dobromyslov3 |
Affiliations | 1 Institute of Water and Ecological Problems, FarEastern Branch of the Russian Academy of Sciences, 65, Kim Yu Chen Str., 680000 Khabarovsk, Russia 2 Regionally Nanotechnology Center of South-West State University, 94, 50 let Octyabrya Str., 305040 Kursk, Russia 3 Pacific National University, 136, Tikhookeanskaya Str., 680035 Khabarovsk, Russia |
Е-mail | |
Issue | Volume 6, Year 2014, Number 3 |
Dates | Received 19 May 2014; revised manuscript received 05 July 2014; published online 15 July 2014 |
Citation | N.A. Chan, V.V. Chakov, A.P. Kuzmenko, et al., J. Nano- Electron. Phys. 6 No 3, 03026 (2014) |
DOI | |
PACS Number(s) | 05.65. + b, 61.43.Hv |
Keywords | Biological resources, Sphagnum mosses, Sorption capacity, Amorphous carbon (2) , Carbon nanotubes (14) , Functional materials. |
Annotation | The effectiveness and feasibility of producing nanoscale carbon materials from renewable bioresources were shown as an example marsh mass. The mechanisms of synthesis of amorphous organic carbon from sphagnum moss species modified by a liquid peat phase of humic nature are discussed. A fundamentally new way of producing carbon nanotubes by mechanical activation of amorphous organic carbon is described. |
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