ZNO/MXENE AS AN EFFECTIVE CATALYST FOR METHYLENE BLUE PHOTODEGRADATION
Photodegradation of dyes is one method to solve environmental problems caused by dyes pollution. Methylene blue is one of many water pollutants which hard to decompose and can absorb visible light, so that the water’s intake of light decreases. Semiconductor is a material able to degrade dyes...
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id-itb.:835132024-08-12T08:11:29ZZNO/MXENE AS AN EFFECTIVE CATALYST FOR METHYLENE BLUE PHOTODEGRADATION E Filia Hutabarat, Wahyudi Kimia Indonesia Final Project ZnO, (002) plane, (101) plane, band gap energy, Photodegradation INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/83513 Photodegradation of dyes is one method to solve environmental problems caused by dyes pollution. Methylene blue is one of many water pollutants which hard to decompose and can absorb visible light, so that the water’s intake of light decreases. Semiconductor is a material able to degrade dyes through utilization of light energy. Photodegradation ability of ZnO which a semiconductor can enhancing through integrate the ZnO material with another nanoparticle like MXene. ZnO/MXene is expected to give more effective degradation ability in UV and visible light range due to reducing the recombination rate and widening light absorption range of ZnO. Photodegradation ability of ZnO/MXene can also enhance with facet-engineering of ZnO crystal. (002) plane is polar facet which interact more with water. Modification of facet done with variating type of straight-chain alcohol that use in ZnO synthesis. Based on XRD characterization result, for methanol, ethanol, 1-propanol, and 1 butanol the peak intensity ratio of (002) plane with peak intensity of (101) plane based on the height are 1,21; 2,98; 1,57; and 3,23 respectively. From IR characterization it is prove that ZnO successfully synthesize show with absorption from Zn-O bond in 500 cm?1 wavenumber. Calculation band gap with Kubelka Munk equation and Tauc plot for ZnO show result 3,15; 3,15; 3,14; 3,19 eV. While, band gap for ZnO/MXene with mass ration MXene:ZnO 1:10, 1:25, and 1:50 show result 3,04; 3,12; 3,13 eV, respectively. Besides, calculation of Urbach tail energy show 0,15; 0,13; 0,14; 0,10 eV for ZnO synthesized with methanol, ethanol, 1 propanol, and 1-butanol. As for Urbach tail energy of ZnO/MXene synthesized with mass ratio MXene:ZnO 1:10, 1:25, 1:50 respectively are 0,59; 0,26; and 0,09 eV. Based on photocatalytic result, observed rate constant (kobs) for ZnO/MXene with mass ratio 1:10. 1:25, and 1:50 smaller than ZnO kobs. This is probably due the adsorption ability of ZnO/MXene to methylene blue greater, so it decreases the concentration of methylene blue in solution and a lot of ZnO surface covered by MXene. text |
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Kimia E Filia Hutabarat, Wahyudi ZNO/MXENE AS AN EFFECTIVE CATALYST FOR METHYLENE BLUE PHOTODEGRADATION |
| description |
Photodegradation of dyes is one method to solve environmental problems caused by dyes
pollution. Methylene blue is one of many water pollutants which hard to decompose and can
absorb visible light, so that the water’s intake of light decreases. Semiconductor is a material
able to degrade dyes through utilization of light energy. Photodegradation ability of ZnO
which a semiconductor can enhancing through integrate the ZnO material with another
nanoparticle like MXene. ZnO/MXene is expected to give more effective degradation ability
in UV and visible light range due to reducing the recombination rate and widening light
absorption range of ZnO. Photodegradation ability of ZnO/MXene can also enhance with
facet-engineering of ZnO crystal. (002) plane is polar facet which interact more with water.
Modification of facet done with variating type of straight-chain alcohol that use in ZnO
synthesis. Based on XRD characterization result, for methanol, ethanol, 1-propanol, and 1
butanol the peak intensity ratio of (002) plane with peak intensity of (101) plane based on the
height are 1,21; 2,98; 1,57; and 3,23 respectively. From IR characterization it is prove that
ZnO successfully synthesize show with absorption from Zn-O bond in 500 cm?1 wavenumber.
Calculation band gap with Kubelka Munk equation and Tauc plot for ZnO show result 3,15;
3,15; 3,14; 3,19 eV. While, band gap for ZnO/MXene with mass ration MXene:ZnO 1:10,
1:25, and 1:50 show result 3,04; 3,12; 3,13 eV, respectively. Besides, calculation of Urbach
tail energy show 0,15; 0,13; 0,14; 0,10 eV for ZnO synthesized with methanol, ethanol, 1
propanol, and 1-butanol. As for Urbach tail energy of ZnO/MXene synthesized with mass ratio
MXene:ZnO 1:10, 1:25, 1:50 respectively are 0,59; 0,26; and 0,09 eV. Based on photocatalytic
result, observed rate constant (kobs) for ZnO/MXene with mass ratio 1:10. 1:25, and 1:50
smaller than ZnO kobs. This is probably due the adsorption ability of ZnO/MXene to methylene
blue greater, so it decreases the concentration of methylene blue in solution and a lot of ZnO
surface covered by MXene. |
| format |
Final Project |
| author |
E Filia Hutabarat, Wahyudi |
| author_facet |
E Filia Hutabarat, Wahyudi |
| author_sort |
E Filia Hutabarat, Wahyudi |
| title |
ZNO/MXENE AS AN EFFECTIVE CATALYST FOR METHYLENE BLUE PHOTODEGRADATION |
| title_short |
ZNO/MXENE AS AN EFFECTIVE CATALYST FOR METHYLENE BLUE PHOTODEGRADATION |
| title_full |
ZNO/MXENE AS AN EFFECTIVE CATALYST FOR METHYLENE BLUE PHOTODEGRADATION |
| title_fullStr |
ZNO/MXENE AS AN EFFECTIVE CATALYST FOR METHYLENE BLUE PHOTODEGRADATION |
| title_full_unstemmed |
ZNO/MXENE AS AN EFFECTIVE CATALYST FOR METHYLENE BLUE PHOTODEGRADATION |
| title_sort |
zno/mxene as an effective catalyst for methylene blue photodegradation |
| url |
https://digilib.itb.ac.id/gdl/view/83513 |
| _version_ |
1822998158632812544 |