Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach
Although flame synthesis promises economic benefit and rapid synthesis of carbon nanotube (CNT), the lack of control and understanding of the effects of flame parameters (e.g., temperature and precursor composition) impose some challenges in modelling and identifying CNT growth region for obtaining...
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my.iium.irep.810462020-12-02T08:07:02Z http://irep.iium.edu.my/81046/ Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach Zainal, Muhammad Talhah Mohd Yasin, Mohd Fairus Wan Ali, Wan Fahmin Faiz Tamrin, Khairul Fikri Ani, Mohd Hanafi T Technology (General) TA Engineering (General). Civil engineering (General) TA401 Materials of engineering and construction Although flame synthesis promises economic benefit and rapid synthesis of carbon nanotube (CNT), the lack of control and understanding of the effects of flame parameters (e.g., temperature and precursor composition) impose some challenges in modelling and identifying CNT growth region for obtaining better throughput. The present study presents an investigation on the types of carbon precursor that affect CNT growth region on nickel catalyst particles in an ethylene inverse diffusion flame. An established CNT growth rate model that describes physical growth of CNT is utilised to predict CNT length and growth region using empirical inputs of flame temperature and species composition from the literature. Two variations of the model are employed to determine the dominant precursor for CNT growth which are the constant adsorption activation energy (CAAE) model and the varying adsorption activation energy (VAAE) model. The carbon precursors investigated include ethylene, acetylene, and carbon monoxide as base precursors and all possible combinations of the base precursors. In the CAAE model, the activation energy for adsorption of carbon precursor species on catalyst surface Ea,1 is held constant whereas in the VAAE model, Ea,1 is varied based on the investigated precursor. The sensitivity of the growth rate model is demonstrated by comparing the shifting of predicted growth regions between the CAAE model and the VAAE model where the CAAE model serves as a control case. Midpoint-based and threshold-based techniques are employed within each model to quantify the predicted CNT growth region. Growth region prediction based on the midpoint-VAAE approach demonstrates the importance of acetylene and carbon monoxide to some extent towards CNT growth. Ultimately, the threshold-VAAE model shows that the dominant precursor for CNT growth is the mixture of acetylene and carbon monoxide. A simplified reaction mechanism is proposed to describe the surface chemistry for precursor reactions with nickel catalyst where decomposition of the ethylene fuel source into acetylene and carbon monoxide is accounted for by chemisorption. Springer 2020-01-30 Article PeerReviewed application/pdf en http://irep.iium.edu.my/81046/14/81046_Carbon%20precursor%20analysis%20for%20catalytic%20growth_WOS%20in%20press.pdf application/pdf en http://irep.iium.edu.my/81046/25/81046_Carbon%20precursor%20analysis%20for%20catalytic%20growth_fulltext.pdf application/pdf en http://irep.iium.edu.my/81046/26/81046_Carbon%20precursor%20analysis%20for%20catalytic%20growth_SCOPUS.pdf Zainal, Muhammad Talhah and Mohd Yasin, Mohd Fairus and Wan Ali, Wan Fahmin Faiz and Tamrin, Khairul Fikri and Ani, Mohd Hanafi (2020) Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach. Carbon Letters, Early Access. pp. 1-11. ISSN 1976-4251 E-ISSN 2233-4998 https://link.springer.com/article/10.1007/s42823-020-00127-z 10.1007/s42823-020-00127-z |
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T Technology (General) TA Engineering (General). Civil engineering (General) TA401 Materials of engineering and construction |
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T Technology (General) TA Engineering (General). Civil engineering (General) TA401 Materials of engineering and construction Zainal, Muhammad Talhah Mohd Yasin, Mohd Fairus Wan Ali, Wan Fahmin Faiz Tamrin, Khairul Fikri Ani, Mohd Hanafi Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach |
| description |
Although flame synthesis promises economic benefit and rapid synthesis of carbon nanotube (CNT), the lack of control and understanding of the effects of flame parameters (e.g., temperature and precursor composition) impose some challenges in modelling and identifying CNT growth region for obtaining better throughput. The present study presents an investigation on the types of carbon precursor that affect CNT growth region on nickel catalyst particles in an ethylene inverse diffusion flame. An established CNT growth rate model that describes physical growth of CNT is utilised to predict CNT length and growth region using empirical inputs of flame temperature and species composition from the literature. Two variations of the model are employed to determine the dominant precursor for CNT growth which are the constant adsorption activation energy (CAAE) model and the varying adsorption activation energy (VAAE) model. The carbon precursors investigated include ethylene, acetylene, and carbon monoxide as base precursors and all possible combinations of the base precursors. In the CAAE model, the activation energy for adsorption of carbon precursor species on catalyst surface Ea,1 is held constant whereas in the VAAE model, Ea,1 is varied based on the investigated precursor. The sensitivity of the growth rate model is demonstrated by comparing the shifting of predicted growth regions between the CAAE model and the VAAE model where the CAAE model serves as a control case. Midpoint-based and threshold-based techniques are employed within each model to quantify the predicted CNT growth region. Growth region prediction based on the midpoint-VAAE approach demonstrates the importance of acetylene and carbon monoxide to some extent towards CNT growth. Ultimately, the threshold-VAAE model shows that the dominant precursor for CNT growth is the mixture of acetylene and carbon monoxide. A simplified reaction mechanism is proposed to describe the surface chemistry for precursor reactions with nickel catalyst where decomposition of the ethylene fuel source into acetylene and carbon monoxide is accounted for by chemisorption. |
| format |
Article |
| author |
Zainal, Muhammad Talhah Mohd Yasin, Mohd Fairus Wan Ali, Wan Fahmin Faiz Tamrin, Khairul Fikri Ani, Mohd Hanafi |
| author_facet |
Zainal, Muhammad Talhah Mohd Yasin, Mohd Fairus Wan Ali, Wan Fahmin Faiz Tamrin, Khairul Fikri Ani, Mohd Hanafi |
| author_sort |
Zainal, Muhammad Talhah |
| title |
Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach |
| title_short |
Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach |
| title_full |
Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach |
| title_fullStr |
Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach |
| title_full_unstemmed |
Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach |
| title_sort |
carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi‐empirical approach |
| publisher |
Springer |
| publishDate |
2020 |
| url |
http://irep.iium.edu.my/81046/14/81046_Carbon%20precursor%20analysis%20for%20catalytic%20growth_WOS%20in%20press.pdf http://irep.iium.edu.my/81046/25/81046_Carbon%20precursor%20analysis%20for%20catalytic%20growth_fulltext.pdf http://irep.iium.edu.my/81046/26/81046_Carbon%20precursor%20analysis%20for%20catalytic%20growth_SCOPUS.pdf http://irep.iium.edu.my/81046/ https://link.springer.com/article/10.1007/s42823-020-00127-z |
| _version_ |
1685578527855869952 |
| score |
13.2014675 |