A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals
An efficient regiospecific co-assembly (RSCA) strategy is developed for general synthesis of mesoporous metal oxides with pore walls precisely decorated by highly dispersed noble metal nanocrystals with customized parameters (diameter and composition). It features the rational utilization of the spe...
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sg-ntu-dr.10356-1820042025-01-10T15:50:14Z A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals Li, Jichun Xue, Lingxiao Deng, Yu Cheng, Xiaowei Ma, Junhao Xie, Wenhe Chen, Meihua Deng, Yonghui School of Materials Science and Engineering Engineering Mesoporous metal oxides Metal nanocrystals An efficient regiospecific co-assembly (RSCA) strategy is developed for general synthesis of mesoporous metal oxides with pore walls precisely decorated by highly dispersed noble metal nanocrystals with customized parameters (diameter and composition). It features the rational utilization of the specific interactions between hydrophilic molecular precursors, hydrophobic noble metal nanocrystals, and amphiphilic block copolymers, to achieve regiospecific co-assembly as confirmed by molecular dynamics simulations. Through this RSCA strategy, we achieved a controllable synthesis of a variety of functional mesoporous metal oxide composites (e.g., WO3, ZrO2, TiO2) with in-pore walls precisely decorated by various noble metal nanocrystals of tailored components (Au, Ag, Pt, Pd and their nanoalloys) and sizes (3.0-8.5 nm). As an example, the obtained mesoporous 0.5-Ag/WO3 material has a highly interconnected mesoporous structure and uniform 6.5 nm Ag nanocrystals confined in the mesopores, showing superior NO sensing performances with high sensitivity, good selectivity, and stability at low working temperature (127 °C). In situ spectroscopy study indicates that the NO sensing process involves a unique gas-solid reaction, where NO molecules are converted into chemisorbed NO x species over the sensitive materials, inducing a remarkable change of resistance and outputting a dramatic response signal. Published version This work was financially supported by the NSF of China (22125501, U22A20152), and the State Key Laboratory of Transducer Technology of China (Grant No. SKT2207), and Fundamental Research Funds for the Central Universities (20720220010). 2025-01-06T01:24:22Z 2025-01-06T01:24:22Z 2024 Journal Article Li, J., Xue, L., Deng, Y., Cheng, X., Ma, J., Xie, W., Chen, M. & Deng, Y. (2024). A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals. ACS Central Science, 10(12), 2274-2284. https://dx.doi.org/10.1021/acscentsci.4c01592 2374-7943 https://hdl.handle.net/10356/182004 10.1021/acscentsci.4c01592 39735319 2-s2.0-85210096429 12 10 2274 2284 en ACS Central Science © 2024 The Authors. Published by American Chemical Society. This article is licensed under CC-BY 4.0. application/pdf |
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Engineering Mesoporous metal oxides Metal nanocrystals |
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Engineering Mesoporous metal oxides Metal nanocrystals Li, Jichun Xue, Lingxiao Deng, Yu Cheng, Xiaowei Ma, Junhao Xie, Wenhe Chen, Meihua Deng, Yonghui A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals |
| description |
An efficient regiospecific co-assembly (RSCA) strategy is developed for general synthesis of mesoporous metal oxides with pore walls precisely decorated by highly dispersed noble metal nanocrystals with customized parameters (diameter and composition). It features the rational utilization of the specific interactions between hydrophilic molecular precursors, hydrophobic noble metal nanocrystals, and amphiphilic block copolymers, to achieve regiospecific co-assembly as confirmed by molecular dynamics simulations. Through this RSCA strategy, we achieved a controllable synthesis of a variety of functional mesoporous metal oxide composites (e.g., WO3, ZrO2, TiO2) with in-pore walls precisely decorated by various noble metal nanocrystals of tailored components (Au, Ag, Pt, Pd and their nanoalloys) and sizes (3.0-8.5 nm). As an example, the obtained mesoporous 0.5-Ag/WO3 material has a highly interconnected mesoporous structure and uniform 6.5 nm Ag nanocrystals confined in the mesopores, showing superior NO sensing performances with high sensitivity, good selectivity, and stability at low working temperature (127 °C). In situ spectroscopy study indicates that the NO sensing process involves a unique gas-solid reaction, where NO molecules are converted into chemisorbed NO x species over the sensitive materials, inducing a remarkable change of resistance and outputting a dramatic response signal. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Li, Jichun Xue, Lingxiao Deng, Yu Cheng, Xiaowei Ma, Junhao Xie, Wenhe Chen, Meihua Deng, Yonghui |
| format |
Article |
| author |
Li, Jichun Xue, Lingxiao Deng, Yu Cheng, Xiaowei Ma, Junhao Xie, Wenhe Chen, Meihua Deng, Yonghui |
| author_sort |
Li, Jichun |
| title |
A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals |
| title_short |
A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals |
| title_full |
A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals |
| title_fullStr |
A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals |
| title_full_unstemmed |
A regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals |
| title_sort |
regiospecific co-assembly method to functionalize ordered mesoporous metal oxides with customizable noble metal nanocrystals |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182004 |
| _version_ |
1821237124639227904 |