[1] L. L. Ke, Y. S. Wang, Z. D. Wang. Nonlinear vibration of the piezoelectric nanobeams based on the nonlocal theory. Compos. Struct., 94, 2038(2012).

[2] C. Liu, L. L. Ke, Y. S. Wang, J. Yang, S. Kitipornchai. Thermo-electro-mechanical vibration of piezoelectric nanoplates based on the nonlocal theory. Compos. Struct., 106, 167(2013).

[3] V. A. Eremeyev. On effective properties of materials at the nano-and microscales considering surface effects. Acta Mech., 227, 29(2016).

[4] Z. Yan, X. Y. Zhou, G. K. H. Pang, T. Zhang, W. L. Liu, J. G. Cheng, Y. Wang. ZnO-based film bulk acoustic resonator for high sensitivity biosensor applications. Appl. Phys. Lett., 90, 143503(2007).

[5] X. Bian, H. Jin, X. Wang, S. Dong, G. Chen, J. K. Luo, B. Qi. UV sensing using film bulk acoustic resonators based on Au/n-ZnO/piezoelectric-ZnO/Al structure. Sci. Rep., 5, 1(2015).

[6] Z. Wang, X. Qiu, S. J. Chen, W. Pang, H. Zhang, J. Shi, H. Yu. ZnO based film bulk acoustic resonator as infrared sensor. Thin Solid Films, 519, 6144(2011).

[7] S. Kiruthika, S. Singh, G. U. Kulkarni. Large area transparent ZnO photodetectors with Au wire network electrodes.. RSC Adv., 6, 44668(2016).

[8] Z. Yan, X. J. Zhou. Simulation of ZnO based film bulk acoustic resonator by modified Butterworth-Van Dyke model. Proceedings of the 2010 Symposium on Piezoelectricity, Acoustic Waves and Device Applications, 491-496(2010). https://doi.org/10.1109/SPAWDA.2010.5744362

[9] B. A. Buchine, W. L. Hughes, F. L. Degertekin, Z. L. Wang. Bulk acoustic resonator based on piezoelectric ZnO belts. Nano Lett., 6, 1155(2006).

[10] D. Yang, W. Song, H. Chen, Y. Li, Z. Zhang, J. Xu, Y. Qiu. Enhanced performance of ZnO piezoelectric nanogenerators by using Au-coated nanowire arrays as top electrode. Phys. Stat. Solidi (A), 212, 2001(2015).

[11] P. I. Reyes, Z. Zhang, H. Chen, Z. Duan, J. Zhong, G. Saraf, N. N. Boustany. A ZnO nanostructure-based quartz crystal microbalance device for biochemical sensing. IEEE Sens. J., 9, 1302(2009).

[12] N. Van Quy, V. A. Minh, N. Van Luan, V. N. Hung, N. Van Hieu. Gas sensing properties at room temperature of a quartz crystal microbalance coated with ZnO nanorods. Sens. Actuators B Chem., 153, 188(2011).

[13] M. Willander, L. L. Yang, A. Wadeasa, S. U. Ali, M. H. Asif, Q. X. Zhao, O. Nur. Zinc oxide nanowires: controlled low temperature growth and some electrochemical and optical nano-devices. J. Mater. Chem., 19, 1006(2009).

[14] J. Y. Li, X. L. Chen, H. Li, M. He, Z. Y. Qiao. Fabrication of zinc oxide nanorods. J. Cryst. Growth, 233, 5(2001).

[15] E. Sadyrin, M. Swain, B. Mitrin, I. Rzhepakovsky, A. Nikolaev, V. Irkha, D. Yogina, N. Lyanguzov, S. Maksyukov, S. Aizikovich. Characterization of enamel and dentine about a white spot lesion: Mechanical properties, mineral density, microstructure and molecular composition. Nanomaterials, 10, 1889(2020).

[16] E. V. Sadyrin, B. I. Mitrin, L. I. Krenev, A. L. Nikolaev, S. M. Aizikovich. Evaluation of mechanical properties of the two-layer coating using nanoindentation and mathematical modeling. Int. Conf. Physics and Mechanics of New Materials and Their Applications, 495-502(2017).

[17] [17] D. A. Zhilin, V. I. Pushkariov, L. A. Nikolaev, E. M. Kaidashev, N. V. Lyanguzov and V. E. Kaydashev, Photoelectric properties of metal-semiconductor-metall structure based on ZnO nanorods designed thermal evaporation and carbothermal methods, Adv. Mater. Stud. Appl. ISBN: 978-1-63463-749-7, Chapter 5, pp. 57–64 (2015).

[18] V. I. Pushkariov, A. L. Nikolaev, E. M. Kaidashev. Synthesis and characterization of ZnO nanorods obtained by catalyst-free thermal technique. J. Phys. Conf. Ser., 541, 012031(2014).

[19] X. L. He, L. Garcia-Gancedo, P. C. Jin, J. Zhou, W. B. Wang, S. R. Dong, W. I. Milne. Film bulk acoustic resonator pressure sensor with self temperature reference. J. Micromech. Microeng., 22, 125005(2012).

[20] T. M. Børseth, B. G. Svensson, A. Y. Kuznetsov, P. Klason, Q. X. Zhao, M. Willander. Identification of oxygen and zinc vacancy optical signals in ZnO. Appl. Phys. Lett., 89, 262112(2006).

[21] A. F. Kohan, G. Ceder, D. Morgan, C. G. Van de Walle. First-principles study of native point defects in ZnO. Phys. Rev. B, 61, 15019(2000).

[22] S. A. Studenikin, N. Golego, M. Cocivera. Fabrication of green and orange photoluminescent, undoped ZnO films using spray pyrolysis. J. Appl. Phys., 84, 2287(1998).

[23] R. E. Marotti, J. A. Badán, E. Quagliata, E. A. Dalchiele. Red photoluminescence and band edge shift from ZnO thin films. Physica B Condens. Matter, 398, 337(2007).

[24] C. A. Arguello, D. L. Rousseau, S. D. S. Porto. First-order Raman effect in wurtzite-type crystals. Phys. Rev., 181, 1351(1969).

[25] O. Lupan, L. Chow, G. Chai, B. Roldan, A. Naitabdi, A. Schulte, H. Heinrich. Nanofabrication and characterization of ZnO nanorod arrays and branched microrods by aqueous solution route and rapid thermal processing. Mater. Sci. Eng. B, 145, 57(2007).

[26] A. L. Nikolaev, E. M. Kaidashev, A. S. Kamencev. Morphology and photoluminescence of zinc oxide nanorods obtained by carbothermal synthesis at different temperatures. Adv. Mater., 224, 103(2019).

[27] [27] V. I. Pushkariov, A. L. Nikolaev and E. M. Kaidashev, Influence of Zn vapor supersaturation on morphology and optical properties of ZnO nanorods grown by CVD technique, Adv. Mater. Stud. Appl. ISBN: 978-1-63463-749-7, Chapter 4, pp. 51–56 (2015).

[28] A. L. Nikolaev, B. I. Mitrin, E. V. Sadyrin, V. B. Zelentsov, A. R. Aguiar, S. M. Aizikovich. Mechanical properties of microposit S1813 thin layers. Modeling, Synthesis and Fracture of Advanced Materials for Industrial and Medical Applications., 137-146(2020).

[29] E. V. Sadyrin, A. S. Vasiliev, S. S. Volkov, B. I. Mitrin, S. M. Aizikovich. Simplified analytical solution of the contact problem on indentation of a coated half-space by a spherical punch. WIT Trans. Eng. Sci., 122, 209(2019).

[30] V. B. Zelentsov, E. V. Sadyrin, A. G. Sukiyazov, N. Y. Shubchinskaya. On a method for determination of Poisson’s ratio and Young modulus of a material. MATEC Web of Conf., 226, 03027(2018).

[31] L. I. Krenev, S. S. Volkov, E. V. Sadyrin, S. A. Chizhik. Mechanical material tests by the nanoindentation method at various indenter and specimen temperatures. J. Eng. Phys. Thermophys., 91, 594(2018).