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Ozone: Science & Engineering
The Journal of the International Ozone Association
Volume 35, 2013 - Issue 6
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Original Articles

Effect of Mn Dispersion on Gas Phase Ozone Decomposition at Room Temperature Using Natural Manganese Oxides

Sung Su Kim Department of Chemical and Biological Engineering, University of British Columbia, Vancouver, British Columbia, V6T 1Z3, Canada; Department of Environmental Energy Engineering, Kyonggi University, Suwon-si, Gyeonggi-do, 442-760, South Korea
,
Sung Chang Hong Department of Environmental Energy Engineering, Kyonggi University, Suwon-si, Gyeonggi-do, 442-760, South KoreaCorrespondence[email protected]
&
Keun Hee Han Department of Chemical and Biological Engineering, University of British Columbia, Vancouver, British Columbia, V6T 1Z3, Canada; Greenhouse Gas Department, Korea Institute of Energy Research, Daejeon, 305-343, South KoreaCorrespondence[email protected]
Pages 514-518 | Received 07 Jan 2013, Accepted 05 Jun 2013, Published online: 27 Nov 2013

Citations (12)

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Read on this site (2)

Sławomir Jodzis & Tobiasz Barczyński. (2019) Ozone Synthesis and Decomposition in Oxygen-Fed Pulsed DBD System: Effect of Ozone Concentration, Power Density, and Residence Time. Ozone: Science & Engineering 41:1, pages 69-79.
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Dong Wook Kwon, Geo Jong Kim, Jong Min Won & Sung Chang Hong. (2017) Influence of Mn valence state and characteristic of TiO2 on the performance of Mn–Ti catalysts in ozone decomposition. Environmental Technology 38:22, pages 2785-2792.
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Articles from other publishers (10)

Haoyuan Liang, Xu Wang, Hui Wang & Zhenping Qu. (2023) Co-doped cryptomelane-type manganese oxide in situ grown on a nickel foam substrate for high humidity ozone decomposition. Journal of Environmental Sciences.
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Anqi Wang, Jian Guan, Le Zhang, Hang Wang, Guojun Ma, Guijun Fan, Wenxiang Tang, Ning Han & Yunfa Chen. (2022) In Situ Synthesis of Monolithic Cu 2 O–CuO/Cu Catalysts for Effective Ozone Decomposition . The Journal of Physical Chemistry C 126:1, pages 317-325.
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Zhi-Bing Sun, Ya-Nan Si, Shu-Na Zhao, Qian-You Wang & Shuang-Quan Zang. (2021) Ozone Decomposition by a Manganese-Organic Framework over the Entire Humidity Range. Journal of the American Chemical Society 143:13, pages 5150-5157.
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Xiaotong Li, Jinzhu Ma & Hong He. (2020) Recent advances in catalytic decomposition of ozone. Journal of Environmental Sciences 94, pages 14-31.
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Yang Liu, Pengyi Zhang, Jingjing Zhan & Lifen Liu. (2019) Heat treatment of MnCO3: An easy way to obtain efficient and stable MnO2 for humid O3 decomposition. Applied Surface Science 463, pages 374-385.
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Hang Wang, Pietro Rassu, Xiao Wang, Haiwei Li, Xiaorui Wang, Xiaoqi Wang, Xiao Feng, Anxiang Yin, Pengfei Li, Xu Jin, Shi-Lu Chen, Xiaojie Ma & Bo Wang. (2018) An Iron-Containing Metal-Organic Framework as a Highly Efficient Catalyst for Ozone Decomposition. Angewandte Chemie International Edition 57:50, pages 16416-16420.
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Hang Wang, Pietro Rassu, Xiao Wang, Haiwei Li, Xiaorui Wang, Xiaoqi Wang, Xiao Feng, Anxiang Yin, Pengfei Li, Xu Jin, Shi-Lu Chen, Xiaojie Ma & Bo Wang. (2018) An Iron-Containing Metal-Organic Framework as a Highly Efficient Catalyst for Ozone Decomposition. Angewandte Chemie 130:50, pages 16654-16658.
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Yang Liu, Wenjuan Yang, Pengyi Zhang & Junying Zhang. (2018) Nitric acid-treated birnessite-type MnO2: An efficient and hydrophobic material for humid ozone decomposition. Applied Surface Science 442, pages 640-649.
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Yang Liu & Pengyi Zhang. (2017) Removing Surface Hydroxyl Groups of Ce-Modified MnO 2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition . The Journal of Physical Chemistry C 121:42, pages 23488-23497.
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Jingbo Jia, Pengyi Zhang & Long Chen. (2016) Catalytic decomposition of gaseous ozone over manganese dioxides with different crystal structures. Applied Catalysis B: Environmental 189, pages 210-218.
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