Periodic Structures Fabricated By STED-DLW Stereolithography: Morphology and Optical Properties
Abstract
Two-dimensional (photonic antennas) and three-dimensional (photonic crystals) periodic polymer structures were fabricated by STED-DLW stereolithography. Their morphological features were studied using scanning electron microscopy and atomic force microscopy; also their optical properties were investigated by Fourier spectroscopy and confocal microscopy.
Keywords: STED-DLW stereolithography, optical properties, luminescent mapping, 3D structures
References
[1] Hell S.W., Wichmann J. Opt. Lett., 19, 780 (1994).
[2] Glubokov D.A., Sychev V.V., Vitukhnovskii A.G., Taidakov I.V. “Method of manufacturing resistive masks for nanolithography,” RF Patent No. 2510632 (2012).
[3] Wong K.V., Hernandez A. ISRN Mech. Eng., 2012, 1 (2012).
[4] Peng X., Manna L., Yang W., Wickham J., Scher E., Kadavanich A., Alivisatos A.P. Nature, 404, 59 (2000).
[5] Vitukhnovsky A.G., Shul’ga A.S., Ambrozevich S.A., Khokhlov E.M., Vasiliev R.B., Dirin D.N., Yudson V.I. Phys. Lett. A, 373, 2287 (2009).
[6] Katsaba A.V., Fedyanin V.V., Ambrozevich S.A., Vitukhnovsky A.G., Lobanov A.N., Selyukov A.S., Samatov I.G., Brunkov P.N. Semiconductors, 47, 1328 (2013).
[7] Vasiliev R.B., Sokolikova M.S., Vitukhnovskii A.G., Ambrozevich S.A., Selyukov A.S., Lebedev V.S. Quantum Electron., 45, 853 (2015).
[8] Sugiyama T., Kuwahara Y., Isobe Y., Fujii T., Nonaka K., Iwaya M., Takeuchi T., Kamiyama S., Akasaki I., Amano, H. Appl. Phys. Express, 4, 015701 (2010).
[9] Chung R.B., Wu F., Shivaraman R., Keller S., DenBaars S.P., Speck J.S., Nakamura S. J. Cryst. Growth, 324, 163 (2011).
[10] Amano H. Jpn. J. Appl. Phys., 52, 050001 (2013).
[11] DenBaars S.P., Feezell D., Kelchner K., Pimputkar S., Pan C.C., Yen C.C., Tanaka S., Zhao Y., Pfaff N., Farrell R., Iza M., Keller S., Mishra U., Speck J.S., Nakamura S. Acta Mater., 61, 945 (2013).
[12] Selyukov A.S., Vitukhnovskii A.G., Lebedev, V.S., Vashchenko A.A., Vasiliev R.B., Sokolikova M.S., J. Exp. Theor. Phys., 120, 595 (2015).
[13] Kurokawa H., Kaga M., Goda T., Iwaya M., Takeuchi T., Kamiyama S., Akasaki I., Amano H. Appl. Phys. Express, 7, 034104 (2014).
[14] Selyukov A.S., Isaev A.A., Vitukhnovsky A.G., Litvak V.L., Katsaba A.V., Korshunov V.M., Vasiliev R.B. Semiconductors, 50, 947 (2016).
[15] Eliseev S.P., Korolkov A.E., Vitukhnovsky A.G., Chubich D.A., Sychev V.V. Nanotechnol. Russ., 11, 200 (2016).
[16] Vitukhnovsky A.G., Chubich D.A., Eliseev S.P., Sychev V.V., Kolymagin D.A., Selyukov A.S. J. Russ. Laser Res., 38, 375 (2017).
[17] Huang B., Bates M., Zhuang X. Annu. Rev. Biochem., 78, 993 (2009).
[18] Bechhoefer J. Am. J. Phys., 83, 22 (2015).
[19] Chubich D.A., Kolymagin D.A., Kazakov I.A., Vitukhnovsky A.G. Bull. Russ. Acad. Sci.: Phys., in press (2018).
[20] Jahn M., Patze S., Hidi I.J., Knipper R., Radu A.I., Mühlig A., Yüksel S., Peksa V., Weber K., Mayerhöfer T., Cialla-May D., Popp J. Analyst, 141, 756 (2016).