Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis
Unprotected E-hydrazone esters are prized building blocks for the preparation of 1H-indazoles and countless other N-containing biologically active molecules. Despite previous advances, efficient and stereoselective synthesis of these compounds remains nontrivial. Here, we show that Pt single atoms a...
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sg-ntu-dr.10356-1440042023-12-29T06:54:45Z Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis Liu, Cuibo Chen, Zhongxin Yan, Huan Xi, Shibo Yam, Kah Meng Gao, Jiajian Du, Yonghua Li, Jing Zhao, Xiaoxu Xie, Keyu Xu, Haisen Li, Xing Leng, Kai Pennycook, Stephen J. Liu, Bin Zhang, Chun Koh, Ming Joo Loh, Kian Ping School of Chemical and Biomedical Engineering Engineering::Chemical engineering E-hydrazone Esters 1H-indazole Unprotected E-hydrazone esters are prized building blocks for the preparation of 1H-indazoles and countless other N-containing biologically active molecules. Despite previous advances, efficient and stereoselective synthesis of these compounds remains nontrivial. Here, we show that Pt single atoms anchored on defect-rich CeO2 nanorods (Pt1/CeO2), in conjunction with the alcoholysis of ammonia borane, promotes exceptionally E-selective hydrogenation of α-diazoesters to afford a wide assortment of N-H hydrazone esters with an overall turnover frequency of up to 566 hours-1 upon reaction completion. The α-diazoester substrates could be generated in situ from readily available carboxylic esters in one-pot hydrogenation reaction. Utility is demonstrated through concise, scalable synthesis of 1H-indazole-derived pharmaceuticals and their 15N-labeled analogs. The present protocol highlights a key mechanistic nuance wherein simultaneous coordination of a Pt site with the diazo N═N and ester carbonyl motifs plays a central role in controlling stereoselectivity, which is supported by density functional theory calculations. National Research Foundation (NRF) Published version 2020-10-07T08:53:23Z 2020-10-07T08:53:23Z 2019 Journal Article Liu, C., Chen, Z., Yan, H., Xi, S., Yam, K. M., Gao, J., . . . Loh, K. P. (2019). Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis. Science Advances, 5(12), eaay1537-. doi:10.1126/sciadv.aay1537 2375-2548 https://hdl.handle.net/10356/144004 10.1126/sciadv.aay1537 31840074 12 5 en Science Advances © 2019 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 License 4.0 (CC BY). application/pdf |
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Engineering::Chemical engineering E-hydrazone Esters 1H-indazole |
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Engineering::Chemical engineering E-hydrazone Esters 1H-indazole Liu, Cuibo Chen, Zhongxin Yan, Huan Xi, Shibo Yam, Kah Meng Gao, Jiajian Du, Yonghua Li, Jing Zhao, Xiaoxu Xie, Keyu Xu, Haisen Li, Xing Leng, Kai Pennycook, Stephen J. Liu, Bin Zhang, Chun Koh, Ming Joo Loh, Kian Ping Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis |
| description |
Unprotected E-hydrazone esters are prized building blocks for the preparation of 1H-indazoles and countless other N-containing biologically active molecules. Despite previous advances, efficient and stereoselective synthesis of these compounds remains nontrivial. Here, we show that Pt single atoms anchored on defect-rich CeO2 nanorods (Pt1/CeO2), in conjunction with the alcoholysis of ammonia borane, promotes exceptionally E-selective hydrogenation of α-diazoesters to afford a wide assortment of N-H hydrazone esters with an overall turnover frequency of up to 566 hours-1 upon reaction completion. The α-diazoester substrates could be generated in situ from readily available carboxylic esters in one-pot hydrogenation reaction. Utility is demonstrated through concise, scalable synthesis of 1H-indazole-derived pharmaceuticals and their 15N-labeled analogs. The present protocol highlights a key mechanistic nuance wherein simultaneous coordination of a Pt site with the diazo N═N and ester carbonyl motifs plays a central role in controlling stereoselectivity, which is supported by density functional theory calculations. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Liu, Cuibo Chen, Zhongxin Yan, Huan Xi, Shibo Yam, Kah Meng Gao, Jiajian Du, Yonghua Li, Jing Zhao, Xiaoxu Xie, Keyu Xu, Haisen Li, Xing Leng, Kai Pennycook, Stephen J. Liu, Bin Zhang, Chun Koh, Ming Joo Loh, Kian Ping |
| format |
Article |
| author |
Liu, Cuibo Chen, Zhongxin Yan, Huan Xi, Shibo Yam, Kah Meng Gao, Jiajian Du, Yonghua Li, Jing Zhao, Xiaoxu Xie, Keyu Xu, Haisen Li, Xing Leng, Kai Pennycook, Stephen J. Liu, Bin Zhang, Chun Koh, Ming Joo Loh, Kian Ping |
| author_sort |
Liu, Cuibo |
| title |
Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis |
| title_short |
Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis |
| title_full |
Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis |
| title_fullStr |
Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis |
| title_full_unstemmed |
Expedient synthesis of E-hydrazone esters and 1H-indazole scaffolds through heterogeneous single-atom platinum catalysis |
| title_sort |
expedient synthesis of e-hydrazone esters and 1h-indazole scaffolds through heterogeneous single-atom platinum catalysis |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144004 |
| _version_ |
1787136820095483904 |