We investigated arrays of such nanoparticles and described the influence of local ultrafast oscillations on a long-range phenomenon-the surface lattice resonance (a collective optical response of regular nanoparticle arrays), which is extremely sensitive to the color of light scattered by the nanoparticles. These processes can be visualized in dynamic light absorption spectra because the color of plasmonic materials depends on their size and shape which can be modulated by mechanical vibrations. We showed that light pulses elapsing a trillionth of a second (1/1 000 000 000 000 s) can excite mechanical vibrations in nanoparticles that are a thousand times smaller than the width of a human hair. This article describes the interaction of ultrafast light pulses with silver nanoparticles and their arrays. Mindaugas Juodėnas, Domantas Peckus, Tomas Tamulevičius, Yusuke Yamauchi, Sigitas Tamulevičius, and Joel Henzie, Effect of Ag Nanocube Optomechanical Modes on Plasmonic Surface Lattice Resonances (2020). This detailed study of the influence of ZnO nanostructure and form on electrochemical properties, will be useful in the development of future biosensors. ZnO tetrapods have the highest active surface area (A = A= 0.095 cm2), and the lowest number of electronic transport skaičiaus (DEp = 61.7 mV), which is very close to the theoretical value. ZnO tetrapods synthesized in our laboratory were found to have better electrochemical properties than commercial ZnO (nanoparticles, nanowires). Different forms of ZnO were compared: tetrapods, nanoparticles and nanowires. In this work we analyze how a form of zinc oxide (ZnO) nanomaterials determines their electrochemical properties. ZnO Nanostructures Application in Electrochemistry: Influence of Morphology (2021). Nasibulin, Yutaka Ohno, Simas Račkauskas. Influential Publications Agnė Šulčiūtė, Keita Nishimura, Evgeniia Gilshtein, Federico Cesano, Guido Viscardi, Albert G. The Institute’s staff are also members of editorial boards and referees in various scientific journals. Scientific results are disseminated in international conferences, published in top impact factor journals indexed in Clarivate Analytics, Web of Science. Research conducted is multidisciplinary and of utmost importance for the society development. Research carried out by the staff of the Institute is aimed towards micro and nanostructures, microsystems, nanooptics, microelectromechanical, optoelectronic, semiconductor device and related technology development.