Effect of annealing temperature on ECD grown hexagonal-plane zinc oxide
© 2018 by the authors. Zinc oxide (ZnO) offers a great potential in several applications from sensors to Photovoltaic cells thanks to the material's dependency, to its optical and electrical properties and crystalline structure architypes. Typically, ZnO powder tends to be grown in the form of...
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th-cmuir.6653943832-587812018-09-05T04:30:55Z Effect of annealing temperature on ECD grown hexagonal-plane zinc oxide Sukrit Sucharitakul Rangsan Panyathip Supab Choopun Materials Science © 2018 by the authors. Zinc oxide (ZnO) offers a great potential in several applications from sensors to Photovoltaic cells thanks to the material's dependency, to its optical and electrical properties and crystalline structure architypes. Typically, ZnO powder tends to be grown in the form of a wurtzite structure allowing versatility in the phase of material growths; albeit, whereas in this work we introduce an alternative in scalable yet relatively simple 2D hexagonal planed ZnO nanoflakes via the electrochemical deposition of commercially purchased Zn(NO3)2and KCl salts in an electrochemical process. The resulting grown materials were analyzed and characterized via a series of techniques prior to thermal annealing to increase the grain size and improve the crystal quality. Through observation via scanning electron microscope (SEM) images, we have analyzed the statistics of the grown flakes' hexagonal plane's size showing a non-monotonal strong dependency of the average flake's hexagonal flakes' on the annealing temperature, whereas at 300 °C annealing temperature, average flake size was found to be in the order of 300 μm2. The flakes were further analyzed via transmission electron microscopy (TEM) to confirm its hexagonal planes and spectroscopy techniques, such as Raman Spectroscopy and photo luminescence were applied to analyze and confirm the ZnO crystal signatures. The grown materials also underwent further characterization to gain insights on the material, electrical, and optical properties and, hence, verify the quality of the material for Photovoltaic cells' electron collection layer application. The role of KCl in aiding the growth of the less preferable (0001) ZnO is also investigated via various prospects discussed in our work. Our method offers a relatively simple and mass-producible method for synthesizing a high quality 2D form of ZnO that is, otherwise, technically difficult to grow or control. 2018-09-05T04:30:55Z 2018-09-05T04:30:55Z 2018-08-06 Journal 19961944 2-s2.0-85051143967 10.3390/ma11081360 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85051143967&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/58781 |
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Materials Science Sukrit Sucharitakul Rangsan Panyathip Supab Choopun Effect of annealing temperature on ECD grown hexagonal-plane zinc oxide |
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© 2018 by the authors. Zinc oxide (ZnO) offers a great potential in several applications from sensors to Photovoltaic cells thanks to the material's dependency, to its optical and electrical properties and crystalline structure architypes. Typically, ZnO powder tends to be grown in the form of a wurtzite structure allowing versatility in the phase of material growths; albeit, whereas in this work we introduce an alternative in scalable yet relatively simple 2D hexagonal planed ZnO nanoflakes via the electrochemical deposition of commercially purchased Zn(NO3)2and KCl salts in an electrochemical process. The resulting grown materials were analyzed and characterized via a series of techniques prior to thermal annealing to increase the grain size and improve the crystal quality. Through observation via scanning electron microscope (SEM) images, we have analyzed the statistics of the grown flakes' hexagonal plane's size showing a non-monotonal strong dependency of the average flake's hexagonal flakes' on the annealing temperature, whereas at 300 °C annealing temperature, average flake size was found to be in the order of 300 μm2. The flakes were further analyzed via transmission electron microscopy (TEM) to confirm its hexagonal planes and spectroscopy techniques, such as Raman Spectroscopy and photo luminescence were applied to analyze and confirm the ZnO crystal signatures. The grown materials also underwent further characterization to gain insights on the material, electrical, and optical properties and, hence, verify the quality of the material for Photovoltaic cells' electron collection layer application. The role of KCl in aiding the growth of the less preferable (0001) ZnO is also investigated via various prospects discussed in our work. Our method offers a relatively simple and mass-producible method for synthesizing a high quality 2D form of ZnO that is, otherwise, technically difficult to grow or control. |
| format |
Journal |
| author |
Sukrit Sucharitakul Rangsan Panyathip Supab Choopun |
| author_facet |
Sukrit Sucharitakul Rangsan Panyathip Supab Choopun |
| author_sort |
Sukrit Sucharitakul |
| title |
Effect of annealing temperature on ECD grown hexagonal-plane zinc oxide |
| title_short |
Effect of annealing temperature on ECD grown hexagonal-plane zinc oxide |
| title_full |
Effect of annealing temperature on ECD grown hexagonal-plane zinc oxide |
| title_fullStr |
Effect of annealing temperature on ECD grown hexagonal-plane zinc oxide |
| title_full_unstemmed |
Effect of annealing temperature on ECD grown hexagonal-plane zinc oxide |
| title_sort |
effect of annealing temperature on ecd grown hexagonal-plane zinc oxide |
| publishDate |
2018 |
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https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85051143967&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/58781 |
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