PHOTOCATALYTIC DEGRADATION OF PHENOL USING TIO2 WHICH IS SYNTHESIZED IN PYRIDINIUM DERIVATIVE IONIC LIQUIDS
This study aims to determine the activity of TiO2 photocatalytic degradation on <br /> <br /> phenol synthesized in pyridinium derivative ion media using hydrothermal <br /> <br /> method and study the effect of ionic liquids on the properties and structure of <br /> &l...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/27204 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | This study aims to determine the activity of TiO2 photocatalytic degradation on <br />
<br />
phenol synthesized in pyridinium derivative ion media using hydrothermal <br />
<br />
method and study the effect of ionic liquids on the properties and structure of <br />
<br />
TiO2. Phenols and their derivatives are organic pollutants that cause <br />
<br />
environmental problems because of their toxic nature. Therefore phenol <br />
<br />
degradation is carried out using the photocatalytic method and TiO2 as the <br />
<br />
catalyst. The first step taken in this research was to synthesize 1-butyl pyridinium <br />
<br />
chloride ion, 1-butyl pyridinium tetrafluoroborate, and 1-butyl pyridinium <br />
<br />
salicylate which were then characterized by NMR. Then the ionic liquid that has <br />
<br />
been formed was used as a solvent for the synthesis of TiO2 with a ratio of ionic <br />
<br />
liquids and water 3: 7 w / w. TiO2 that has been formed is characterized by XRD, <br />
<br />
SEM, and BET to determine the effect of different ionic liquids on TiO2 structure. <br />
<br />
In this study TiO2 has been synthesized in a solvent medium of various <br />
<br />
pyridinium derivative ionic liquids which have a large surface area and have <br />
<br />
pores. The TiO2 produced was an anatase phase which was well known for <br />
<br />
photocatalytic processes compared to brokit and rutile. Photocatalytic studies <br />
<br />
were then carried out at optimum conditions for each TiO2 that had been <br />
<br />
synthesized. Photocatalytic activity of TiO2 compounds synthesized with a <br />
<br />
mixture of BuPy-Salicylate: water (3: 7w/w) had the highest degradation <br />
<br />
percentage of phenol, 92.86% then a mixture of BuPy-BF4: water (3: 7 w/w) <br />
<br />
89.43%, BuPy-Cl: water (3: 7 w/w) 73.48% and water 65.05%. The results of this <br />
<br />
degradation were analyzed by measuring the final concentration after the <br />
<br />
degradation process using HPLC. |
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