Aluminum-hydride-catalyzed hydroboration of carbon dioxide
This study describes the first use of a bis(phosphoranyl)methanido aluminum hydride, [ClC(PPh2NMes)2AlH2] (2, Mes = Me3C6H2), for the catalytic hydroboration of CO2. Complex 2 was synthesized by the reaction of a lithium carbenoid [Li(Cl)C(PPh2NMes)2] with 2 equiv of AlH3·NEtMe2 in toluene at -78 °C...
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sg-ntu-dr.10356-1518862023-02-28T19:30:43Z Aluminum-hydride-catalyzed hydroboration of carbon dioxide Chia, Cher-Chiek Teo, Yeow-Chuan Cham, Ning Ho, Samuel Ying-Fu Ng, Zhe-Hua Toh, Hui-Min Mézailles, Nicolas So, Cheuk-Wai School of Physical and Mathematical Sciences Science::Chemistry Mixtures Hydrocarbons This study describes the first use of a bis(phosphoranyl)methanido aluminum hydride, [ClC(PPh2NMes)2AlH2] (2, Mes = Me3C6H2), for the catalytic hydroboration of CO2. Complex 2 was synthesized by the reaction of a lithium carbenoid [Li(Cl)C(PPh2NMes)2] with 2 equiv of AlH3·NEtMe2 in toluene at -78 °C. 2 (10 mol %) was able to catalyze the reduction of CO2 with HBpin in C6D6 at 110 °C for 2 days to afford a mixture of methoxyborane [MeOBpin] (3a; yield: 78%, TOF: 0.16 h-1) and bis(boryl)oxide [pinBOBpin] (3b). When more potent [BH3·SMe2] was used instead of HBpin, the catalytic reaction was extremely pure, resulting in the formation of trimethyl borate [B(OMe)3] (3e) [catalytic loading: 1 mol % (10 mol %); reaction time: 60 min (5 min); yield: 97.6% (>99%); TOF: 292.8 h-1 (356.4 h-1)] and B2O3 (3f). Mechanistic studies show that the Al-H bond in complex 2 activated CO2 to form [ClC(PPh2NMes)2Al(H){OC(O)H}] (4), which was subsequently reacted with BH3·SMe2 to form 3e and 3f, along with the regeneration of complex 2. Complex 2 also shows good catalytic activity toward the hydroboration of carbonyl, nitrile, and alkyne derivatives. Ministry of Education (MOE) National Research Foundation (NRF) Accepted version This work is supported by the National Research Foundation Singapore, NRF-ANR (NRF2018-NRF-ANR026 Si-POP) and Ministry of Education Singapore, AcRF Tier 2 (MOE2019-T2- 2-129) and AcRF Tier 1 (RG 17/17) (C.-W.S.). We thank CalMip (CNRS, Toulouse, France) for access to calculation facilities. 2021-07-06T05:39:48Z 2021-07-06T05:39:48Z 2021 Journal Article Chia, C., Teo, Y., Cham, N., Ho, S. Y., Ng, Z., Toh, H., Mézailles, N. & So, C. (2021). Aluminum-hydride-catalyzed hydroboration of carbon dioxide. Inorganic Chemistry, 60(7), 4569-4577. https://dx.doi.org/10.1021/acs.inorgchem.0c03507 0020-1669 https://hdl.handle.net/10356/151886 10.1021/acs.inorgchem.0c03507 33733776 2-s2.0-85103637539 7 60 4569 4577 en NRF2018-NRF-ANR026 Si-POP MOE2019-T2- 2-129 RG 17/17 Inorganic Chemistry This document is the Accepted Manuscript version of a Published Work that appeared in final form in Inorganic Chemistry, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acs.inorgchem.0c03507. application/pdf |
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Science::Chemistry Mixtures Hydrocarbons Chia, Cher-Chiek Teo, Yeow-Chuan Cham, Ning Ho, Samuel Ying-Fu Ng, Zhe-Hua Toh, Hui-Min Mézailles, Nicolas So, Cheuk-Wai Aluminum-hydride-catalyzed hydroboration of carbon dioxide |
| description |
This study describes the first use of a bis(phosphoranyl)methanido aluminum hydride, [ClC(PPh2NMes)2AlH2] (2, Mes = Me3C6H2), for the catalytic hydroboration of CO2. Complex 2 was synthesized by the reaction of a lithium carbenoid [Li(Cl)C(PPh2NMes)2] with 2 equiv of AlH3·NEtMe2 in toluene at -78 °C. 2 (10 mol %) was able to catalyze the reduction of CO2 with HBpin in C6D6 at 110 °C for 2 days to afford a mixture of methoxyborane [MeOBpin] (3a; yield: 78%, TOF: 0.16 h-1) and bis(boryl)oxide [pinBOBpin] (3b). When more potent [BH3·SMe2] was used instead of HBpin, the catalytic reaction was extremely pure, resulting in the formation of trimethyl borate [B(OMe)3] (3e) [catalytic loading: 1 mol % (10 mol %); reaction time: 60 min (5 min); yield: 97.6% (>99%); TOF: 292.8 h-1 (356.4 h-1)] and B2O3 (3f). Mechanistic studies show that the Al-H bond in complex 2 activated CO2 to form [ClC(PPh2NMes)2Al(H){OC(O)H}] (4), which was subsequently reacted with BH3·SMe2 to form 3e and 3f, along with the regeneration of complex 2. Complex 2 also shows good catalytic activity toward the hydroboration of carbonyl, nitrile, and alkyne derivatives. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Chia, Cher-Chiek Teo, Yeow-Chuan Cham, Ning Ho, Samuel Ying-Fu Ng, Zhe-Hua Toh, Hui-Min Mézailles, Nicolas So, Cheuk-Wai |
| format |
Article |
| author |
Chia, Cher-Chiek Teo, Yeow-Chuan Cham, Ning Ho, Samuel Ying-Fu Ng, Zhe-Hua Toh, Hui-Min Mézailles, Nicolas So, Cheuk-Wai |
| author_sort |
Chia, Cher-Chiek |
| title |
Aluminum-hydride-catalyzed hydroboration of carbon dioxide |
| title_short |
Aluminum-hydride-catalyzed hydroboration of carbon dioxide |
| title_full |
Aluminum-hydride-catalyzed hydroboration of carbon dioxide |
| title_fullStr |
Aluminum-hydride-catalyzed hydroboration of carbon dioxide |
| title_full_unstemmed |
Aluminum-hydride-catalyzed hydroboration of carbon dioxide |
| title_sort |
aluminum-hydride-catalyzed hydroboration of carbon dioxide |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151886 |
| _version_ |
1759853100750864384 |