Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials
The ordered coassembly of mixed-dimensional species-such as zero-dimensional (0D) nanocrystals and 2D microscale nanosheets-is commonly deemed impracticable, as phase separation almost invariably occurs. Here, by manipulating the ligand grafting density, we achieve ordered coassembly of 0D nanocryst...
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sg-ntu-dr.10356-1708282023-12-29T06:49:11Z Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials Li, Tongtao Xia, Xiuyang Wu, Guanhong Cai, Qingfu Lyu, Xuanyu Ning, Jing Wang, Jing Kuang, Min Yang, Yuchi Pica Ciamarra, Massimo Ni, Ran Yang, Dong Dong, Angang School of Chemical and Biomedical Engineering School of Physical and Mathematical Sciences Science::Physics Cross-Species Evaporation Conditions The ordered coassembly of mixed-dimensional species-such as zero-dimensional (0D) nanocrystals and 2D microscale nanosheets-is commonly deemed impracticable, as phase separation almost invariably occurs. Here, by manipulating the ligand grafting density, we achieve ordered coassembly of 0D nanocrystals and 2D nanosheets under standard solvent evaporation conditions, resulting in macroscopic, freestanding hybrid-dimensional superlattices with both out-of-plane and in-plane order. The key to suppressing the notorious phase separation lies in hydrophobizing nanosheets with molecular ligands identical to those of nanocrystals but having substantially lower grafting density. The mismatched ligand density endows the two mixed-dimensional components with a molecular recognition-like capability, driving the spontaneous organization of densely capped nanocrystals at the interlayers of sparsely grafted nanosheets. Theoretical calculations reveal that the intercalation of nanocrystals can substantially reduce the short-range repulsions of ligand-grafted nanosheets and is therefore energetically favorable, while subsequent ligand-ligand van der Waals attractions induce the in-plane order and kinetically stabilize the laminate superlattice structure. Ministry of Education (MOE) Published version This work was supported by the National Key Research and Development Program of China (2020YFB1505803), NSFC (22025501, 21872038, 21733003, 51773042, and 51973040), the Shanghai International Science and Technology Cooperation Project (21520713800), the Foshan Science and Technology Innovation Program (2017IT100121), and the Academic Research Fund Tier 1 grant from the Singapore Ministry of Education (RG59/21) 2023-10-18T02:36:00Z 2023-10-18T02:36:00Z 2022 Journal Article Li, T., Xia, X., Wu, G., Cai, Q., Lyu, X., Ning, J., Wang, J., Kuang, M., Yang, Y., Pica Ciamarra, M., Ni, R., Yang, D. & Dong, A. (2022). Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials. Science Advances, 8(26). https://dx.doi.org/10.1126/sciadv.abq0969 2375-2548 https://hdl.handle.net/10356/170828 10.1126/sciadv.abq0969 35776790 2-s2.0-85134083192 26 8 en RG59/21 Science Advances © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC) application/pdf |
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Science::Physics Cross-Species Evaporation Conditions Li, Tongtao Xia, Xiuyang Wu, Guanhong Cai, Qingfu Lyu, Xuanyu Ning, Jing Wang, Jing Kuang, Min Yang, Yuchi Pica Ciamarra, Massimo Ni, Ran Yang, Dong Dong, Angang Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials |
| description |
The ordered coassembly of mixed-dimensional species-such as zero-dimensional (0D) nanocrystals and 2D microscale nanosheets-is commonly deemed impracticable, as phase separation almost invariably occurs. Here, by manipulating the ligand grafting density, we achieve ordered coassembly of 0D nanocrystals and 2D nanosheets under standard solvent evaporation conditions, resulting in macroscopic, freestanding hybrid-dimensional superlattices with both out-of-plane and in-plane order. The key to suppressing the notorious phase separation lies in hydrophobizing nanosheets with molecular ligands identical to those of nanocrystals but having substantially lower grafting density. The mismatched ligand density endows the two mixed-dimensional components with a molecular recognition-like capability, driving the spontaneous organization of densely capped nanocrystals at the interlayers of sparsely grafted nanosheets. Theoretical calculations reveal that the intercalation of nanocrystals can substantially reduce the short-range repulsions of ligand-grafted nanosheets and is therefore energetically favorable, while subsequent ligand-ligand van der Waals attractions induce the in-plane order and kinetically stabilize the laminate superlattice structure. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Li, Tongtao Xia, Xiuyang Wu, Guanhong Cai, Qingfu Lyu, Xuanyu Ning, Jing Wang, Jing Kuang, Min Yang, Yuchi Pica Ciamarra, Massimo Ni, Ran Yang, Dong Dong, Angang |
| format |
Article |
| author |
Li, Tongtao Xia, Xiuyang Wu, Guanhong Cai, Qingfu Lyu, Xuanyu Ning, Jing Wang, Jing Kuang, Min Yang, Yuchi Pica Ciamarra, Massimo Ni, Ran Yang, Dong Dong, Angang |
| author_sort |
Li, Tongtao |
| title |
Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials |
| title_short |
Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials |
| title_full |
Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials |
| title_fullStr |
Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials |
| title_full_unstemmed |
Mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials |
| title_sort |
mismatched ligand density enables ordered assembly of mixed-dimensional, cross-species materials |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170828 |
| _version_ |
1787136616262795264 |