Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating
We highlight two recent approaches operating far from equilibrium for the synthesis of hierarchical porous thin film materials by coupling block copolymer-directed self-assembly with transient laser heating. In first block copolymer-induced writing by transient heating experiments, or B-WRITE, an al...
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sg-ntu-dr.10356-1424762023-07-14T15:59:03Z Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating Tan, Kwan Wee Wiesner, Ulrich School of Materials Science and Engineering Engineering::Nanotechnology Block Copolymer Laser Heating We highlight two recent approaches operating far from equilibrium for the synthesis of hierarchical porous thin film materials by coupling block copolymer-directed self-assembly with transient laser heating. In first block copolymer-induced writing by transient heating experiments, or B-WRITE, an all-organic block copolymer-resols hybrid film is heated by submillisecond carbon dioxide laser irradiation, directly generating 3D mesoporous continuous resin structures and shapes. Harnessing the highly unique resin materials properties under laser heating conditions, in the second approach block copolymer-directed resin templating is coupled with nanosecond pulsed excimer laser annealing to generate complementary crystalline silicon nanostructures. The underlying structure formation mechanisms for such laser-induced organic and inorganic nanostructured materials are discussed, emphasizing that the nonequilibrium nature of these transient laser annealing approaches opens up vast and new processing windows beyond traditional stability limits of organic polymer materials. Finally, we highlight opportunities and challenges for possible future research directions and applications of laser-induced block copolymer-directed hierarchical porous materials formation including structure control, materials diversification, scale-up, on-chip applications, and additive manufacturing, which may provide solutions in areas as diverse as catalysis, sensing, and energy storage and conversion. MOE (Min. of Education, S’pore) Published version 2020-06-22T09:22:44Z 2020-06-22T09:22:44Z 2019 Journal Article Tan, K. W., & Wiesner, U. (2019). Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating. Macromolecules, 52(2), 395-409. doi:10.1021/acs.macromol.8b01766 0024-9297 https://hdl.handle.net/10356/142476 10.1021/acs.macromol.8b01766 2-s2.0-85059739995 2 52 395 409 en Macromolecules © 2019 American Chemical Society. This is an open access article published under an ACS AuthorChoice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes. application/pdf |
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Engineering::Nanotechnology Block Copolymer Laser Heating Tan, Kwan Wee Wiesner, Ulrich Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating |
| description |
We highlight two recent approaches operating far from equilibrium for the synthesis of hierarchical porous thin film materials by coupling block copolymer-directed self-assembly with transient laser heating. In first block copolymer-induced writing by transient heating experiments, or B-WRITE, an all-organic block copolymer-resols hybrid film is heated by submillisecond carbon dioxide laser irradiation, directly generating 3D mesoporous continuous resin structures and shapes. Harnessing the highly unique resin materials properties under laser heating conditions, in the second approach block copolymer-directed resin templating is coupled with nanosecond pulsed excimer laser annealing to generate complementary crystalline silicon nanostructures. The underlying structure formation mechanisms for such laser-induced organic and inorganic nanostructured materials are discussed, emphasizing that the nonequilibrium nature of these transient laser annealing approaches opens up vast and new processing windows beyond traditional stability limits of organic polymer materials. Finally, we highlight opportunities and challenges for possible future research directions and applications of laser-induced block copolymer-directed hierarchical porous materials formation including structure control, materials diversification, scale-up, on-chip applications, and additive manufacturing, which may provide solutions in areas as diverse as catalysis, sensing, and energy storage and conversion. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Tan, Kwan Wee Wiesner, Ulrich |
| format |
Article |
| author |
Tan, Kwan Wee Wiesner, Ulrich |
| author_sort |
Tan, Kwan Wee |
| title |
Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating |
| title_short |
Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating |
| title_full |
Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating |
| title_fullStr |
Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating |
| title_full_unstemmed |
Block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating |
| title_sort |
block copolymer self-assembly directed hierarchically structured materials from nonequilibrium transient laser heating |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/142476 |
| _version_ |
1773551216105619456 |