Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions
Hierarchically porous SiC is an important catalyst support widely used in various gas and liquid catalytic processes. Conventional approaches to fabricate such SiC have limited design flexibility and separated catalyst-loading step is necessitated. Herein, a one-step, direct vat-photopolymerization...
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sg-ntu-dr.10356-1774562024-06-07T15:44:49Z Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions Ho, Terence Yan King Pung, Kah Sheng Lock, Daniel Wen Hao Du, Zehui Gan, Chee Lip School of Materials Science and Engineering Temasek Laboratories @ NTU Engineering Vat photopolymerisation 3D printing Silicon carbide SiC Hierarchically porous Pickering emulsions Catalyst support Hierarchically porous SiC is an important catalyst support widely used in various gas and liquid catalytic processes. Conventional approaches to fabricate such SiC have limited design flexibility and separated catalyst-loading step is necessitated. Herein, a one-step, direct vat-photopolymerization 3D printing of hierarchically porous SiC loaded with Co/Ni based catalyst was demonstrated with Pickering emulsion as feedstock for the first time. Compared with normal ceramic slurries, Pickering emulsion dramatically increases the cure depth (by 50%) and emulsion stability,which allow continuous printing of complex SiC structures with uniform pore morphology. The resultant hierarchical porous SiC offered ~40% better mechanical strength as compared with non-hierarchical counterpart. By dissolving metal salts into aqueous phase in Pickering emulsions, complex architected structures with Co or Ni/Co in-situ loaded in SiC matrix were printed. The precursors were then further thermally converted into oxides or silicates as catalysts anchored on SiC, exhibiting excellent catalytic activity and reusability. The emulsion templating strategy holds great facility to load various highly attractive materials such as high entropy oxides or functional fillers whilst reaping the benefits of vat photopolymerisation for a myriad of applications in catalysis, batteries, and structural supports. Submitted/Accepted version 2024-06-06T05:36:28Z 2024-06-06T05:36:28Z 2024 Journal Article Ho, T. Y. K., Pung, K. S., Lock, D. W. H., Du, Z. & Gan, C. L. (2024). Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions. Advanced Functional Materials. https://dx.doi.org/10.1002/adfm.202406132 1616-301X https://hdl.handle.net/10356/177456 10.1002/adfm.202406132 en Advanced Functional Materials © 2024 Wiley-VCH GmbH. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1002/adfm.202406132. application/pdf application/pdf |
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Engineering Vat photopolymerisation 3D printing Silicon carbide SiC Hierarchically porous Pickering emulsions Catalyst support |
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Engineering Vat photopolymerisation 3D printing Silicon carbide SiC Hierarchically porous Pickering emulsions Catalyst support Ho, Terence Yan King Pung, Kah Sheng Lock, Daniel Wen Hao Du, Zehui Gan, Chee Lip Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions |
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Hierarchically porous SiC is an important catalyst support widely used in various gas and liquid catalytic processes. Conventional approaches to fabricate such SiC have limited design flexibility and separated catalyst-loading step is necessitated. Herein, a one-step, direct vat-photopolymerization 3D printing of hierarchically porous SiC loaded with Co/Ni based catalyst was demonstrated with Pickering emulsion as feedstock for the first time. Compared with normal ceramic slurries, Pickering emulsion dramatically increases the cure depth (by 50%) and emulsion stability,which allow continuous printing of complex SiC structures with uniform pore morphology. The resultant hierarchical porous SiC offered ~40% better mechanical strength as compared with non-hierarchical counterpart. By dissolving metal salts into aqueous phase in Pickering emulsions, complex architected structures with Co or Ni/Co in-situ loaded in SiC matrix were printed. The precursors were then further thermally converted into oxides or silicates as catalysts anchored on SiC, exhibiting excellent catalytic activity and reusability. The emulsion templating strategy holds great facility to load various highly attractive materials such as high entropy oxides or functional fillers whilst reaping the benefits of vat photopolymerisation for a myriad of applications in catalysis, batteries, and structural supports. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Ho, Terence Yan King Pung, Kah Sheng Lock, Daniel Wen Hao Du, Zehui Gan, Chee Lip |
| format |
Article |
| author |
Ho, Terence Yan King Pung, Kah Sheng Lock, Daniel Wen Hao Du, Zehui Gan, Chee Lip |
| author_sort |
Ho, Terence Yan King |
| title |
Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions |
| title_short |
Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions |
| title_full |
Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions |
| title_fullStr |
Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions |
| title_full_unstemmed |
Direct vat-photopolymerisation 3D printing of hierarchically porous SiC loaded with Co/Ni based catalysts by using Pickering emulsions |
| title_sort |
direct vat-photopolymerisation 3d printing of hierarchically porous sic loaded with co/ni based catalysts by using pickering emulsions |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/177456 |
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1814047066042662912 |