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[1] Grek A., “Ogon', voda i nanotrubki”, Populyarnaya mekhanika, 2017, no. 1, 39-47
[2] D'yachkov P. N., Uglerodnyye nanotrubki. Stroyeniye, svoystva, primeneniya, BINOM. Laboratoriya znaniy, M., 2006, 296 pp.
[3] D'yachkov P. N., Elektronnyye svoystva i primeneniye nanotrubok, BINOM. Laboratoriya znaniy, M., 2014, 488 pp.
[4] Yeletskiy A. V., “Uglerodnyye nanotrubki i ikh emissionnyye svoystva”, Uspekhi fizicheskikh nauk, 172:4 (2002), 401-438 | DOI
[5] Iijima S., “Helical Microtubules of Graphitic Carbon”, Nature, 354:5 (1991), 56-58 | DOI
[6] Ismagilov R. A., Polucheniye i svoystva uglerodnykh tubulyarnykh nanostruktur, avtoreferat dis. kandidata fiziko-matematicheskikh nauk : 01.04.07, MGU, M., 2011, 23 pp.
[7] Kats Ye. A., Fullereny, uglerodnyye nanotrubki i nanoklastery. Rodoslovnaya form i idey, Librokom, M., 2014, 296 pp.
[8] Moskatov Ye. A., Elektronnaya tekhnika, Knorus, M., 2019, 203 pp.
[9] Nanotrubki dlya OLED https://www.nanonewsnet.ru/news/2011/nanotrubki-dlya-oled
[10] Svoystva nanotrubok: mekhanicheskiye, elektricheskiye, kapillyarnyye, magnitnyye. Svoystva i primeneniye uglerodnykh nanotrubok. https://naruhog.ru/
[11] Tomilin M. G., Nevskaya G. Ye., Displei na zhidkikh kristallakh, Ucheb. posobiye, Sankt-Peterburgskiy gosudarstvennyy universitet informatsionnykh tekhnologiy, mekhaniki i optiki, SPb., 2010, 108 pp.
[12] Uglerodnoye budushcheye elektroniki https://www.ixbt.com/editorial/carbon.shtml
[13] Uglerodnyye nanotrubki. Materialy dlya komp'yuterov XXI veka. http://vivovoco.astronet.ru/ VV/JOURNAL/NATURE/11<nobr>$_$</nobr>00/NANOTUBE.HTM
[14] Saito Y., Uemura S., “Field emission from carbon nanotubes and its application to electron sources”, CARBON, 2 (2000), 169-182 | DOI | MR