Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity
The effective method for synthesis of heteroatom doped carbon nanosheets (CNS) from waste tires was developed. The process employed NiO loaded CaCO₃ catalyst for catalytic chemical vapor deposition (CCVD) of the CNS from the non-condensable pyrolysis gas. The promotion of CaCO₃ with NiO had benefici...
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sg-ntu-dr.10356-1522012021-08-06T01:44:25Z Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity Veksha, Andrei Naziah Mohamad Latiff Chen, Wenqian Ng, Jun Eng Lisak, Grzegorz School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Engineering::Environmental engineering Carbon Nanosheets Heteroatom Doping The effective method for synthesis of heteroatom doped carbon nanosheets (CNS) from waste tires was developed. The process employed NiO loaded CaCO₃ catalyst for catalytic chemical vapor deposition (CCVD) of the CNS from the non-condensable pyrolysis gas. The promotion of CaCO₃ with NiO had beneficial effect on carbon growth compared to pure CaCO₃, increasing the carbon yield by 2.8 and 8.0 times for the CCVD at 700 and 750 °C, respectively. On the contrary, the morphology and structure of synthesized S,O-doped CNS as well as oxygen reduction reaction (ORR) electrocatalytic activity were not influenced by the NiO addition. Based on the carbon yields and ORR electrocatalytic activities, the preferred CCVD temperature was 700–750 °C, resulting in the CNS with the ORR peak reduction potentials of −0.217 V to −0.220 V (versus −0.167 V for Pt electrode). The improvement of CCVD process was proposed decreasing the ORR peak reduction potential to −0.191 V. A mixture of NH₃ and H₂O was added to pyrolysis gas, promoting the development of mesoporosity and incorporation of N into the material structure. The developed technique is a viable solution for the conversion of non-condensable gases from tire pyrolysis into S,N,O-doped CNS for ORR. Economic Development Board (EDB) Nanyang Technological University The authors would like to acknowledge the Nanyang Environment and Water Research Institute, Nanyang Technological University (Singapore), and Economic Development Board (Singapore) for the financial support of this research. 2021-08-06T01:44:25Z 2021-08-06T01:44:25Z 2020 Journal Article Veksha, A., Naziah Mohamad Latiff, Chen, W., Ng, J. E. & Lisak, G. (2020). Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity. Carbon, 167, 104-113. https://dx.doi.org/10.1016/j.carbon.2020.05.075 0008-6223 https://hdl.handle.net/10356/152201 10.1016/j.carbon.2020.05.075 2-s2.0-85086569162 167 104 113 en Carbon © 2020 Elsevier Ltd. All rights reserved. |
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Engineering::Environmental engineering Carbon Nanosheets Heteroatom Doping Veksha, Andrei Naziah Mohamad Latiff Chen, Wenqian Ng, Jun Eng Lisak, Grzegorz Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity |
| description |
The effective method for synthesis of heteroatom doped carbon nanosheets (CNS) from waste tires was developed. The process employed NiO loaded CaCO₃ catalyst for catalytic chemical vapor deposition (CCVD) of the CNS from the non-condensable pyrolysis gas. The promotion of CaCO₃ with NiO had beneficial effect on carbon growth compared to pure CaCO₃, increasing the carbon yield by 2.8 and 8.0 times for the CCVD at 700 and 750 °C, respectively. On the contrary, the morphology and structure of synthesized S,O-doped CNS as well as oxygen reduction reaction (ORR) electrocatalytic activity were not influenced by the NiO addition. Based on the carbon yields and ORR electrocatalytic activities, the preferred CCVD temperature was 700–750 °C, resulting in the CNS with the ORR peak reduction potentials of −0.217 V to −0.220 V (versus −0.167 V for Pt electrode). The improvement of CCVD process was proposed decreasing the ORR peak reduction potential to −0.191 V. A mixture of NH₃ and H₂O was added to pyrolysis gas, promoting the development of mesoporosity and incorporation of N into the material structure. The developed technique is a viable solution for the conversion of non-condensable gases from tire pyrolysis into S,N,O-doped CNS for ORR. |
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School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Veksha, Andrei Naziah Mohamad Latiff Chen, Wenqian Ng, Jun Eng Lisak, Grzegorz |
| format |
Article |
| author |
Veksha, Andrei Naziah Mohamad Latiff Chen, Wenqian Ng, Jun Eng Lisak, Grzegorz |
| author_sort |
Veksha, Andrei |
| title |
Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity |
| title_short |
Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity |
| title_full |
Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity |
| title_fullStr |
Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity |
| title_full_unstemmed |
Heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity |
| title_sort |
heteroatom doped carbon nanosheets from waste tires as electrode materials for electrocatalytic oxygen reduction reaction : effect of synthesis techniques on properties and activity |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/152201 |
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1707774590100439040 |