Lamine electron spectroscopywas carried out. The obtained results were collected and
Lamine electron spectroscopywas carried out. The obtained outcomes have been collected and are presente elemental evaluation were performed. In the first in Table 1. stage of characterization of titanium dioxide modified with triethylamine, elemental evaluation was carried out. The obtained benefits had been collected and are presented in Table 1. Table 1. Final results of elemental analysis for modified titanium dioxide.Table 1. Benefits of elemental evaluation for modified titanium dioxide.SampleTiON Sample2 TiON 1.8 1.C three.C three.H two.H two.S 0.S 0.According to the obtained results of elemental analysis, it was observed that for the sam ple of TiO2 modified with benefits of elemental analysis, content of nitrogen, carbon, and hy According to the obtained triethylamine, a considerable it was observed that for the drogen TiO modified the triethylamine, a considerable content of nitrogen, carbon three , sample ofwas 2noted. In withcase of nitrogen, the content was 1.8 , for carbon, and and fo hydrogen was noted.apparent enhance within the content was 1.eight , for carbon 3 , and for hydrogen two . An Inside the case of nitrogen, the content material in the components talked about above ma hydrogen an effective modification approach. indicate 2 . An apparent increase within the content on the Trimetazidine In Vivo elements talked about above may perhaps indicate an effective confirm the approach. modification of TiO2, the following step was to analyz Having said that, to modification productive Nevertheless, to confirm the powerful modification of TiO2 , the next step was to analyze the chemical states of your elemental elements using the XPS method. the chemical states with the elemental components applying the XPS technique. As was anticipated, titanium, oxygen, nitrogen, and carbon happen to be observed in th As was expected, titanium, oxygen, nitrogen, and carbon have been observed within the spectra of the analyzed sample. The selected high-resolution XPSspecific regions, spectra from the analyzed sample. The selected high-resolution XPS spectra of spectra of distinct re gions, 1s, N O 1s, C 1s, and C 1s, respectively, are presented Ti 2p, O Ti 2p,1s, andN 1s, respectively, are presented in Figure two. in Figure two.Figure XPS spectra of of precise regions: 2p, (b) O (b) O 1s, (c) N (d) and (d) C 1s for TiO2 Figure two.2. XPS spectra certain regions: (a) Ti(a) Ti 2p, 1s, (c) N 1s, and 1s, C 1s for TiO2 modified modifie with triethylamine. with triethylamine.The Ti 2p area at the TiO2 sample spectrum (see Figure 2a) exhibited two characteristic peaks at binding energies 459.six eV and 465.two eV, linked with Ti 2p3/2 and Ti 2p1/2 of Ti4+ ions in oxide lattice, respectively [27]. The O 1s area (see Figure 2b) around the spectrum shows a double peak, which, immediately after Tetradecyltrimethylammonium bromide deconvolution, might be resolved towards the lattice oxygen and adsorbed surface H groups [28]. The positions in the O 1s were 530.7 eVMaterials 2021, 14,The Ti 2p area in the TiO2 sample spectrum (see Figure 2a) exhibited two characteristic peaks at binding energies 459.6 eV and 465.two eV, linked with Ti 2p3/2 and Ti 2p1/2 of Ti4+ ions in oxide lattice, respectively [27]. The O 1s region (see Figure 2b) on the 7 of 26 spectrum shows a double peak, which, immediately after deconvolution, may perhaps be resolved towards the lattice oxygen and adsorbed surface H groups [28]. The positions in the O 1s have been 530.7 eV for lattice O and 532.1eV for H groups. In the N 1s region (see Figure 2c), the peak characteristic for the amine H groups. binding 1s area (see eV might be observed for lattice O and 532.1eV for C-N bond at a Inside the N energy of.