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Functionalization of the Si(1 1 1) 7 × 7 substrate with coronene molecules using simple molecular source

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[1] CLAEYS C., SIMOEN E., Germanium-Based From Materials to Devices Technologies, Elsevier, Amsterdam, 2007. Search in Google Scholar

[2] JIA F., WOO R., SHULU C., YAOCHENG L., GRIFFIN P.B., PLUMMER J.D., IEEE Electr. Device L., 28 (2007), 637. Search in Google Scholar

[3] CHAWANDA A., NYAMHERE C., AURET F.D., MTANGI W., DIALE M., NEL J.M., Phys. Status Solidi, 7 (2010), 248. Search in Google Scholar

[4] GRZELA T., CAPELLINI G., KOCZOROWSKI W., SZUBERT M.A., CZAJKA R., CURSON N.J., HEIDMANN I., SCHMIDT T., FALTA J., SCHROEDER T., Nanotechnology, 26 (2015), 385701. Search in Google Scholar

[5] LUKANOV B., REINER J., WALKER F., AHN C., ALTMAN E., Phys. Rev. B, 84 (2011), 1. Search in Google Scholar

[6] MERCKLING C., SAINT-GIROS G., BATELLA C., HOLLINGER G., HEYNS M., DEKOSTER J., CAYMAX M., Appl. Phys. Lett., 98 (2011), 092901. Search in Google Scholar

[7] KOCZOROWSKI W., GRZELA T., RADNY M.W., SCHOFIELD S.R., CAPELLINI G., CZAJKA R., SCHROEDER T., CURSON N.J., Nanotechnology, 26 (2015), 155701. Search in Google Scholar

[8] KOCZOROWSKI W., PUCHALSKA A., GRZELA T., JURCZYSZYN L., SCHOFIELD S.R., CZAJKA R., CURSON N.J., RADNY M.W., Phys. Rev. B, 93 (2016), 195304. Search in Google Scholar

[9] HUDAIT M.K., ZHU Y., JAIN N., MAURYA D., ZHOU Y., VARGHESE R., PRIYA S., ACS Appl. Mater. Inter., 5 (2013), 11446. Search in Google Scholar

[10] MCDANIEL M.D., HU C., LU S., NGO T.Q., POSADAS A., JIANG A., SMITH D.J., YU E.T. DEMKOV A.A., EKERDT J.G., J. Appl. Phys., 117 (2015), 054101. Search in Google Scholar

[11] PARK S.J., YEOM H.W., MIN S.H., PARK D.H., LYO I.W., Phys. Rev. Lett., 93 (2004), 10640. Search in Google Scholar

[12] KOCZOROWSKI W., BAZARNIK M., CZAJKA R., Acta Phys. Pol. A, 120 (2011), 480. Search in Google Scholar

[13] RACIS A., JURCZYSZYN L., BAZARNIK M., KOCZOROWSKI W., WYKROTA A., CZAJKA R., RADNY M.W., Phys. Chem. Chem. Phys., 17 (2015), 23783. Search in Google Scholar

[14] N’DIAYE A.T., BLEIKAMP S., FEIBELMAN P.J., MICHELY T., Phys. Rev. Lett., 97 (2006), 215501. Search in Google Scholar

[15] IWASAKI T., PARK H.J., KONUMA M., LEE D.S., SMET J.H., STARKE U., Nano Lett., 11 (2011), 79. Search in Google Scholar

[16] WEI D., XU X., Appl. Phys. Lett., 100 (2012), 023110. Search in Google Scholar

[17] LIPPERT G., DABROWSKI J., SCHROEDER T., SCHUBERT M.A., YAMAMOTO Y., HERCIGER F., MAULTZSCH J., BARINGHAUS J., TEGENKAMP C., ASENSIO M.C., AVILAD J., LUPINA G., Carbon, 75 (2014), 104. Search in Google Scholar

[18] WYKROTA A., KOCZOROWSKI W., CZAJKA R., Mater. Sci. Semicond. Proc., 17 (2014), 168. Search in Google Scholar

[19] LEE W.H., PARK J., SIM S.H., LIM S., KIM K.S., HONG B.H., CHO K., J. Am. Chem. Soc., 133 (2011), 4447. Search in Google Scholar

[20] KURY P., HILD R., THIEN D., GUNTER H.L., MEYER ZU HERINGDORF F.J., HORN VON HOEGEN M., Rev. Sci. Instrum., 76 (2005), 083906. Search in Google Scholar

[21] LACINGER M., GRIESSL S., HECKL W.M., HIETSCHOLD M., J. Phys. Chem. B, 106 (2002), 4482. Search in Google Scholar

[22] GUTZLER R., HECKL W.M., LACINGER M., Rev. Sci. Instrum., 81 (2010), 015108. Search in Google Scholar

[23] WAKAYAMA Y., HILL J.P., ARIGA K., Surf. Sci., 601 (2007), 3984. Search in Google Scholar

[24] NEˇCAS D., KLAPETEK P., Cent. Eur. J. Phys., 10 (2012), 181. Search in Google Scholar

[25] PN-EN 60584-1:2014-04, Thermoelements. Search in Google Scholar

[26] Product information: www.sigmaaldrich.com; (accessed on 2016.08). Search in Google Scholar

[27] BECKER R.S., GOLOVCHENKO J.A., MCRAE E.G., SWARTZENTRUBER B.S., Phys. Rev. Lett., 55 (1985), 2028. Search in Google Scholar

[28] BROMMER K., NEEDELS M., LARSON B., JOANNOPOULOS J., Phys. Rev. Lett., 68 (1992), 1355. Search in Google Scholar

[29] TAKAYANAGI K., J. Vac. Sci. Technol. A, 3 (1985), 1502. Search in Google Scholar

[30] MARTINEZ-BLANCO J., KLINGSPORN M., HORN K., Surf. Sci., 604 (2010), 523. Search in Google Scholar

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