CHARACTERIZATION OF ZINC OXIDEGOLD NANOCOMPOSITES SYNTHESIZED BY PHOTODEPOSITION TECHNIQUE FOR NANODEVICE APPLICATIONS
In this work, gold nanoparticles (Au NPs) were assembled onto zinc oxide (ZnO) nanostructures through photoinduced assembly mechanism. The properties of ZnO were necessary to predict this mechanism. Firstly, ZnO nanostructured thin films were synthesized by thermal oxidation of zinc (Zn) thin films...
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เชียงใหม่ : บัณฑิตวิทยาลัย มหาวิทยาลัยเชียงใหม่
2020
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th-cmuir.6653943832-691602020-07-30T01:23:26Z CHARACTERIZATION OF ZINC OXIDEGOLD NANOCOMPOSITES SYNTHESIZED BY PHOTODEPOSITION TECHNIQUE FOR NANODEVICE APPLICATIONS การหาลักษณะเฉพาะของซิงก์ออกไซด์–โกลด์ นาโนคอมโพสิต สังเคราะห์โดยเทคนิคโฟโตเดโพซิชัน สำหรับการประยุกต์เป็นอุปกรณ์นาโน Pichitchai Pimpang Asst. Prof. Dr. Supab Choopun Prof. Dr. Kourosh Kalantar-zadeh Dr. Atcharawon Gardchareon Asst. Prof. Dr. Duangmanee Wongratanaphisan In this work, gold nanoparticles (Au NPs) were assembled onto zinc oxide (ZnO) nanostructures through photoinduced assembly mechanism. The properties of ZnO were necessary to predict this mechanism. Firstly, ZnO nanostructured thin films were synthesized by thermal oxidation of zinc (Zn) thin films at different oxidation temperatures of 400, 450, 500, and 550°C. Then, Au NPs were formed onto those ZnO films by photoreduction of HAuCl4 aqueous solution under UVA light irradiation. The characteristics of ZnO nanostructures and zinc oxidegold (ZnOAu) nanocomposites were characterized by FESEM, XRD, XPS, AFM adhesion mapping, and UV-vis spectroscopy. Morphologies of ZnO nanostructures were comprised of short rods branched into their ZnO nanocluster base for all cases. XRD results showed that ZnO nanostructures were highly oriented to the preferred orientation of (002) and the highly texture coefficient of (002) plane. This suggested single crystallinity and that the majority of nanostructures prefer to grow along the caxis. XPS spectra peak of 531.6 eV can be indirectly indicated by the oxygen vacancy in ZnO. In addition, AFM adhesion mapping was used to assess the adhesion property of ZnO. It was found that the ZnO oxidizing at 450°C had the maximum intensity of the preferred (002) orientation and texture coefficient of (002) plane, the highest reduction of oxygen vacancy, and the maximum adhesion intensity, which resulted in the strongest surface polarity. Morphologies of ZnOAu nanocomposites were comprised of several Au NPs growth to encapsulate the end of rodlike ZnO nanostructures which had the strongest adhesion and the lowest surface energy on its site. It was clearly observed that the maximum amount of Au NPs assembly was obtained for ZnO films oxidized at 450 °C. Therefore, the photoinduced assembly mechanism can be simply explained in terms of surface polarity and surface energy. Finally, ZnOAu nanocomposites were applied as H2 sensors. Therefore, the H2 gas sensing properties of ZnOAu nanocomposites were investigated and compared with ZnO nanostructures at operating temperatures in the range of 150450C. It was clearly observed that H2 sensor based on ZnOAu nanocomposites exhibited the optimum operating temperatures at 200C, lower than the 350400C of the sensors based on ZnO nanostructures. This indicated the effect of Au NPs assembly that reduced the optimum operating temperature. In addition, H2 sensor based on ZnOAu nanocomposites had a higher sensor response than those sensors based on ZnO nanostructures. The enhancement of sensor response can be explained in terms of the reaction rate constant (kOxy) by considering the catalytic effect of Au. Moreover, ZnOAu nanocomposites H2 sensor operating at 150C had potential application in fuel cell units. 2020-07-30T01:23:26Z 2020-07-30T01:23:26Z 2014-11 Thesis http://cmuir.cmu.ac.th/jspui/handle/6653943832/69160 en เชียงใหม่ : บัณฑิตวิทยาลัย มหาวิทยาลัยเชียงใหม่ |
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| description |
In this work, gold nanoparticles (Au NPs) were assembled onto zinc oxide (ZnO) nanostructures through photoinduced assembly mechanism. The properties of ZnO were necessary to predict this mechanism. Firstly, ZnO nanostructured thin films were synthesized by thermal oxidation of zinc (Zn) thin films at different oxidation temperatures of 400, 450, 500, and 550°C. Then, Au NPs were formed onto those ZnO films by photoreduction of HAuCl4 aqueous solution under UVA light irradiation. The characteristics of ZnO nanostructures and zinc oxidegold (ZnOAu) nanocomposites were characterized by FESEM, XRD, XPS, AFM adhesion mapping, and UV-vis spectroscopy.
Morphologies of ZnO nanostructures were comprised of short rods branched into their ZnO nanocluster base for all cases. XRD results showed that ZnO nanostructures were highly oriented to the preferred orientation of (002) and the highly texture coefficient of (002) plane. This suggested single crystallinity and that the majority of nanostructures prefer to grow along the caxis. XPS spectra peak of 531.6 eV can be indirectly indicated by the oxygen vacancy in ZnO. In addition, AFM adhesion mapping was used to assess the adhesion property of ZnO. It was found that the ZnO oxidizing at 450°C had the maximum intensity of the preferred (002) orientation and texture coefficient of (002) plane, the highest reduction of oxygen vacancy, and the maximum adhesion intensity, which resulted in the strongest surface polarity.
Morphologies of ZnOAu nanocomposites were comprised of several Au NPs growth to encapsulate the end of rodlike ZnO nanostructures which had the strongest adhesion and the lowest surface energy on its site. It was clearly observed that the maximum amount of Au NPs assembly was obtained for ZnO films oxidized at 450 °C. Therefore, the photoinduced assembly mechanism can be simply explained in terms of surface polarity and surface energy.
Finally, ZnOAu nanocomposites were applied as H2 sensors. Therefore, the H2 gas sensing properties of ZnOAu nanocomposites were investigated and compared with ZnO nanostructures at operating temperatures in the range of 150450C. It was clearly observed that H2 sensor based on ZnOAu nanocomposites exhibited the optimum operating temperatures at 200C, lower than the 350400C of the sensors based on ZnO nanostructures. This indicated the effect of Au NPs assembly that reduced the optimum operating temperature. In addition, H2 sensor based on ZnOAu nanocomposites had a higher sensor response than those sensors based on ZnO nanostructures. The enhancement of sensor response can be explained in terms of the reaction rate constant (kOxy) by considering the catalytic effect of Au. Moreover, ZnOAu nanocomposites H2 sensor operating at 150C had potential application in fuel cell units. |
| author2 |
Asst. Prof. Dr. Supab Choopun |
| author_facet |
Asst. Prof. Dr. Supab Choopun Pichitchai Pimpang |
| format |
Theses and Dissertations |
| author |
Pichitchai Pimpang |
| spellingShingle |
Pichitchai Pimpang CHARACTERIZATION OF ZINC OXIDEGOLD NANOCOMPOSITES SYNTHESIZED BY PHOTODEPOSITION TECHNIQUE FOR NANODEVICE APPLICATIONS |
| author_sort |
Pichitchai Pimpang |
| title |
CHARACTERIZATION OF ZINC OXIDEGOLD NANOCOMPOSITES SYNTHESIZED BY PHOTODEPOSITION TECHNIQUE FOR NANODEVICE APPLICATIONS |
| title_short |
CHARACTERIZATION OF ZINC OXIDEGOLD NANOCOMPOSITES SYNTHESIZED BY PHOTODEPOSITION TECHNIQUE FOR NANODEVICE APPLICATIONS |
| title_full |
CHARACTERIZATION OF ZINC OXIDEGOLD NANOCOMPOSITES SYNTHESIZED BY PHOTODEPOSITION TECHNIQUE FOR NANODEVICE APPLICATIONS |
| title_fullStr |
CHARACTERIZATION OF ZINC OXIDEGOLD NANOCOMPOSITES SYNTHESIZED BY PHOTODEPOSITION TECHNIQUE FOR NANODEVICE APPLICATIONS |
| title_full_unstemmed |
CHARACTERIZATION OF ZINC OXIDEGOLD NANOCOMPOSITES SYNTHESIZED BY PHOTODEPOSITION TECHNIQUE FOR NANODEVICE APPLICATIONS |
| title_sort |
characterization of zinc oxidegold nanocomposites synthesized by photodeposition technique for nanodevice applications |
| publisher |
เชียงใหม่ : บัณฑิตวิทยาลัย มหาวิทยาลัยเชียงใหม่ |
| publishDate |
2020 |
| url |
http://cmuir.cmu.ac.th/jspui/handle/6653943832/69160 |
| _version_ |
1681752607517835264 |