Reference
- Fang, H., Li, X., Song, S., Xu, Y., & Zhu, J. (2008). Nanotechnology, 19(25), 255703.
- Sivakov, V., Andrä, G., Gawlik, A., Berger, A., Plentz, J., Falk, F., & Christiansen, S.H. (2009). Nano Letters, 9, 1549.
- Peng, K., Xu, Y., Wu, Y., Yan, Y., Lee, S. T., & Zhu, J. (2005). Small, 1(11), 1062.
- Yu, M., Long, Y.-Z., Sun, B., & Fan, Z. (2012). Nanoscale, 4, 2783.
- Zhang, G., Finefrock, S., Liang, D., Yadav, G. G., Yang, H., Fang, H., & Wu, Y. (2011). Nanoscale, 3, 2430.
- Nichkalo, S., Druzhinin, A., Yerokhov, V., & Ostapiv, O. (2018). Springer Proceedings in Physics, 210, 275.
- Nichkalo, S., Druzhinin, A., Evtukh, A., Bratus’, O., & Steblova, O. (2017). Nanoscale Research Letters, 12, 106.
- Druzhinin, а., Yerokhov, V., Nichkalo, S., Berezhanskyi, Y., & Chekaylo, M. (2015). Journal of Nano- and Electronic Physics, 7(2), 1.
- Druzhinin, A., Yerokhov, V., Nichkalo, S., & Berezhanskyi, Y. (2016). Journal of Nano Research, 39, 89.
- Druzhinin, A., Evtukh, A., Ostrovskii, I., Khoverko, Y., Nichkalo, S., & Dvornytskyi, S. (2015). Springer Proceedings in Physics, 156, 301.
- Chan, C. K., Peng, H., Liu, G., McIlwrath, K., Zhang, X. F., Huggins, R. A., & Cui, Y. (2008). Nature Nanotechnology, 3, 31.
- Cui, L.-F., Ruffo, R., Chan, C. K., Peng, H., & Cui, Y. (2009). Nano Letters, 9, 491.
- Peng, K., Jie, J., Zhang, W., & Lee, S.-T. (2008). Applied Physics Letters, 93, 033105.
- Hochbaum, A. I., Chen, R., Delgado, R. D., Liang, W., Garnett, E. C., Najarian, M., Majumdar, A., & Yang, P. (2008). Nature, 451, 163.
- Cui, Y., Wei, Q., Park, H., & Lieber, C. M. (2001). Science, 293, 1289.
- In, H. J., Field, C. R., & Pehrsson, P. E. (2011). Nanotechnology, 22(35):355501.
- Li, Z., Chen, Y., Li, X., Kamins, T., Nauka, K., & Williams, R. S. (2004). Nano Letters, 4, 245.
- Patolsky, F., Zheng, G., & Lieber, C. M. (2006). Nature Protocols, 1, 1711.
- Qiu, T., Wu, X. L., Siu, G. G., & Chu, P. K. (2006). Journal of Electronic Materials, 35, 1879.
- Chem, J. M., Lee, D. H., Kim, Y., Doerk, G. S., Laboriante, I., & Maboudian, R. (2011). Journal of Materials Chemistry, 21, 10359.
- Dawood, M. K., Tripathy, S., Dolmanan, S. B., Ng, T. H., Tan, H., & Lam, J. (2012). Journal of Applied Physics, 112, 73509.
- Tsujino K., & Matsumura, M. (2005). Electrochemical and Solid-State Letters, 8, 193.
- Yae, S., Morii, Y., Fukumuro, N., & Matsuda, H. (2012). Nanoscale Research Letters, 7:352.
- Zhang, X.G. (2001). Electrochemistry of Silicon and Its Oxide, Kluwer Academic/Plenum: Dordrecht, Netherlands.
- Rajkumar, K., Pandian, R., Sankarakumar, A., & Rajendra Kumar, R. T. (2017). ACS Omega, 2, 4540.
- Kumar, J., & Ingole, S. (2018). Journal of Electronic Materials, 47(2), 1583.
- Chartier, C., Bastide, S., & Levy-Clement C. (2008). Electrochimica Acta, 53, 5509.
- Huang, Z., Geyer, N., Werner, P. et al. (2011). Advanced Materials, 23, 285.
- Tsujino, K., & Matsumura, M. (2007). Electrochimica Acta, 53, 28.
- Tsujino, K., & Matsumura, M. (2005). Advanced Materials, 17, 1045.