Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment
Porous boron nitride (BN) nanorods, which were synthesized via a one-stage pyrolysis, exhibited excellent catalytic performance for organics' degradation via peroxymonosulfate (PMS) activation. The origin of the unexpected catalytic function of porous BN nanorods was proposed, in which non-radi...
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sg-ntu-dr.10356-1623092022-10-12T08:05:35Z Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment Bao, Yueping Yan, Weili Sun, Ping-Ping Zhu, Justin Yeow Seow Lua, Shun Kuang Lee, Wen Jie Liang, Yen Nan Lim, Teik-Thye Xu, Jason Zhichuan Zhou, Kun Hu, Xiao School of Mechanical and Aerospace Engineering Interdisciplinary Graduate School (IGS) School of Materials Science and Engineering School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Environmental Process Modelling Centre (EPMC) Environmental Chemistry & Materials Centre (ECMC) Rolls-Royce@NTU Corporate Lab Energy Research Institute @ NTU (ERI@N) Emerging nanoscience Research Institute Engineering::Environmental engineering Engineering::Materials Boron Nitride Peroxymonosulfate Porous boron nitride (BN) nanorods, which were synthesized via a one-stage pyrolysis, exhibited excellent catalytic performance for organics' degradation via peroxymonosulfate (PMS) activation. The origin of the unexpected catalytic function of porous BN nanorods was proposed, in which non-radical oxidation driven by the defects on porous BN dominated the sulfamethoxazole degradation via the generation of singlet oxygen (1O2). The adsorption energy between PMS and BN was calculated via density functional theory (DFT), and the PMS activation kinetics were further investigated using an electrochemical methodology. The evolution of 1O2 was verified by electron spin resonance (ESR) and chemical scavenging experiments. The observed non-radical oxidation presented a high robustness in different water matrices, combined with a series of much less toxic intermediates. The used BN was easily regenerated by heating in air, in which the B-O bond was fully recovered. These findings provide new insights for BN as a non-metal catalyst for organics' degradation via PMS activation, in both theoretical and practical prospects. 2022-10-12T08:05:35Z 2022-10-12T08:05:35Z 2022 Journal Article Bao, Y., Yan, W., Sun, P., Zhu, J. Y. S., Lua, S. K., Lee, W. J., Liang, Y. N., Lim, T., Xu, J. Z., Zhou, K. & Hu, X. (2022). Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment. ACS Applied Materials and Interfaces, 14(16), 18409-18419. https://dx.doi.org/10.1021/acsami.2c00755 1944-8244 https://hdl.handle.net/10356/162309 10.1021/acsami.2c00755 35426679 2-s2.0-85128658146 16 14 18409 18419 en ACS Applied Materials and Interfaces © 2022 American Chemical Society. All rights reserved. |
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Engineering::Environmental engineering Engineering::Materials Boron Nitride Peroxymonosulfate Bao, Yueping Yan, Weili Sun, Ping-Ping Zhu, Justin Yeow Seow Lua, Shun Kuang Lee, Wen Jie Liang, Yen Nan Lim, Teik-Thye Xu, Jason Zhichuan Zhou, Kun Hu, Xiao Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment |
| description |
Porous boron nitride (BN) nanorods, which were synthesized via a one-stage pyrolysis, exhibited excellent catalytic performance for organics' degradation via peroxymonosulfate (PMS) activation. The origin of the unexpected catalytic function of porous BN nanorods was proposed, in which non-radical oxidation driven by the defects on porous BN dominated the sulfamethoxazole degradation via the generation of singlet oxygen (1O2). The adsorption energy between PMS and BN was calculated via density functional theory (DFT), and the PMS activation kinetics were further investigated using an electrochemical methodology. The evolution of 1O2 was verified by electron spin resonance (ESR) and chemical scavenging experiments. The observed non-radical oxidation presented a high robustness in different water matrices, combined with a series of much less toxic intermediates. The used BN was easily regenerated by heating in air, in which the B-O bond was fully recovered. These findings provide new insights for BN as a non-metal catalyst for organics' degradation via PMS activation, in both theoretical and practical prospects. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Bao, Yueping Yan, Weili Sun, Ping-Ping Zhu, Justin Yeow Seow Lua, Shun Kuang Lee, Wen Jie Liang, Yen Nan Lim, Teik-Thye Xu, Jason Zhichuan Zhou, Kun Hu, Xiao |
| format |
Article |
| author |
Bao, Yueping Yan, Weili Sun, Ping-Ping Zhu, Justin Yeow Seow Lua, Shun Kuang Lee, Wen Jie Liang, Yen Nan Lim, Teik-Thye Xu, Jason Zhichuan Zhou, Kun Hu, Xiao |
| author_sort |
Bao, Yueping |
| title |
Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment |
| title_short |
Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment |
| title_full |
Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment |
| title_fullStr |
Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment |
| title_full_unstemmed |
Unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment |
| title_sort |
unexpected intrinsic catalytic function of porous boron nitride nanorods for highly efficient peroxymonosulfate activation in water treatment |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162309 |
| _version_ |
1749179229311860736 |