Naresh Kumar Meher, Maruti Suryavansi, K. Geetharani
{"title":"对 \"钴钳夹-NHC 复合物催化的不对称内部炔烃的区域选择性氢硼化反应 \"的更正","authors":"Naresh Kumar Meher, Maruti Suryavansi, K. Geetharani","doi":"10.1021/acs.orglett.4c03679","DOIUrl":null,"url":null,"abstract":"We were made aware of an additional early discovery reported by Petit and co-workers on the cis-α-addition strategy for aryl-alkyl alkynes, which employed a phosphine-based ligand-substituted Cobalt-hydride catalyst. Thus, reference 10 in the original paper should be read as follows. (10) (a) <contrib-group person-group-type=\"allauthors\"><span>Ferrand, L.</span>; <span>Lyu, Y.</span>; <span>Rivera-Hernández, A.</span>; <span>Fallon, B. J.</span>; <span>Amatore, M.</span>; <span>Aubert, C.</span>; <span>Petit, M.</span></contrib-group> Hydroboration and Diboration of Internal Alkynes Catalyzed by a Well-Defined Low-Valent Cobalt Catalyst. <cite><i>Synthesis</i></cite> <span>2017</span>, <em>49</em>, 3895–3904.10.1055/s-0036-1588996</pub-id>. (b) <contrib-group person-group-type=\"allauthors\"><span>Obligacion, J. V.</span>; <span>Neely, J. M.</span>; <span>Yazdani, A. N.</span>; <span>Pappas, I.</span>; <span>Chirik, P. J.</span></contrib-group> Cobalt Catalyzed Z-Selective Hydroboration of Terminal Alkynes and Elucidation of the Origin of Selectivity. <cite><i>J. Am. Chem. Soc.</i></cite>, <span>2015</span>, <em>137</em>, 5855–5858.10.1021/jacs.5b00936</pub-id> (c) <contrib-group person-group-type=\"allauthors\"><span>Ben-Daat, H.</span>; <span>Rock, C. L.</span>; <span>Flores, M.</span>; <span>Groy, T. L.</span>; <span>Bowman, A. C.</span>; <span>Trovitch, R. J.</span></contrib-group> Hydroboration of alkynes and nitriles using an α-diimine cobalt hydride catalyst. <cite><i>Chem. Commun.</i></cite> <span>2017</span>, <em>53</em>, 7333–7336.10.1039/C7CC02281F</pub-id> (d) <contrib-group person-group-type=\"allauthors\"><span>Zhang, G.</span>; <span>Wu, S.</span>; <span>Li, J.</span>; <span>Zeng, H.</span>; <span>Mo, Z.</span>; <span>Davis, K.</span>; <span>Zheng, S.</span></contrib-group> Highly efficient and selective hydroboration of terminal and internal alkynes catalysed by a cobalt(II) coordination polymer. <cite><i>Org. Chem. Front.</i></cite> <span>2019</span>, <em>6</em>, 3228–3233.10.1039/C9QO00834A</pub-id> (e) <contrib-group person-group-type=\"allauthors\"><span>González, M. J.</span>; <span>Bauer, F.</span>; <span>Breit, B.</span></contrib-group> Cobalt-Catalyzed Hydroboration of Terminal and Internal Alkynes. <cite><i>Org. Lett.</i></cite> <span>2021</span>, <em>23</em>, 8199–8203.10.1021/acs.orglett.1c02854</pub-id> (f) <contrib-group person-group-type=\"allauthors\"><span>Blasius, C. K.</span>; <span>Vasilenko, V.</span>; <span>Matveeva, R.</span>; <span>Wadepohl, H.</span>; <span>Gade, L. H.</span></contrib-group> Reaction Pathways and Redox States in α-Selective Cobalt-Catalyzed Hydroborations of Alkynes. <cite><i>Angew. Chem., Int. Ed.</i></cite> <span>2020</span>, <em>59</em>, 23010–23014.10.1002/anie.202009625</pub-id> (g) <contrib-group person-group-type=\"allauthors\"><span>Bories, C. C.</span>; <span>Sodreau, A.</span>; <span>Barbazanges, M.</span>; <span>Petit, M.</span></contrib-group> Well-Defined Low-Valent Cobalt Complexes in Catalysis: An Overview. <cite><i>Organometallics</i></cite>, <span>2024</span>, <em>43</em>, 895–923.10.1021/acs.organomet.4c00054</pub-id> This article has not yet been cited by other publications.","PeriodicalId":54,"journal":{"name":"Organic Letters","volume":null,"pages":null},"PeriodicalIF":4.9000,"publicationDate":"2024-10-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Correction to “Regioselective Hydroboration of Unsymmetrical Internal Alkynes Catalyzed by a Cobalt Pincer-NHC Complex”\",\"authors\":\"Naresh Kumar Meher, Maruti Suryavansi, K. Geetharani\",\"doi\":\"10.1021/acs.orglett.4c03679\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"We were made aware of an additional early discovery reported by Petit and co-workers on the cis-α-addition strategy for aryl-alkyl alkynes, which employed a phosphine-based ligand-substituted Cobalt-hydride catalyst. Thus, reference 10 in the original paper should be read as follows. (10) (a) <contrib-group person-group-type=\\\"allauthors\\\"><span>Ferrand, L.</span>; <span>Lyu, Y.</span>; <span>Rivera-Hernández, A.</span>; <span>Fallon, B. J.</span>; <span>Amatore, M.</span>; <span>Aubert, C.</span>; <span>Petit, M.</span></contrib-group> Hydroboration and Diboration of Internal Alkynes Catalyzed by a Well-Defined Low-Valent Cobalt Catalyst. <cite><i>Synthesis</i></cite> <span>2017</span>, <em>49</em>, 3895–3904.10.1055/s-0036-1588996</pub-id>. (b) <contrib-group person-group-type=\\\"allauthors\\\"><span>Obligacion, J. V.</span>; <span>Neely, J. M.</span>; <span>Yazdani, A. N.</span>; <span>Pappas, I.</span>; <span>Chirik, P. J.</span></contrib-group> Cobalt Catalyzed Z-Selective Hydroboration of Terminal Alkynes and Elucidation of the Origin of Selectivity. <cite><i>J. Am. Chem. Soc.</i></cite>, <span>2015</span>, <em>137</em>, 5855–5858.10.1021/jacs.5b00936</pub-id> (c) <contrib-group person-group-type=\\\"allauthors\\\"><span>Ben-Daat, H.</span>; <span>Rock, C. L.</span>; <span>Flores, M.</span>; <span>Groy, T. L.</span>; <span>Bowman, A. C.</span>; <span>Trovitch, R. J.</span></contrib-group> Hydroboration of alkynes and nitriles using an α-diimine cobalt hydride catalyst. <cite><i>Chem. Commun.</i></cite> <span>2017</span>, <em>53</em>, 7333–7336.10.1039/C7CC02281F</pub-id> (d) <contrib-group person-group-type=\\\"allauthors\\\"><span>Zhang, G.</span>; <span>Wu, S.</span>; <span>Li, J.</span>; <span>Zeng, H.</span>; <span>Mo, Z.</span>; <span>Davis, K.</span>; <span>Zheng, S.</span></contrib-group> Highly efficient and selective hydroboration of terminal and internal alkynes catalysed by a cobalt(II) coordination polymer. <cite><i>Org. Chem. Front.</i></cite> <span>2019</span>, <em>6</em>, 3228–3233.10.1039/C9QO00834A</pub-id> (e) <contrib-group person-group-type=\\\"allauthors\\\"><span>González, M. J.</span>; <span>Bauer, F.</span>; <span>Breit, B.</span></contrib-group> Cobalt-Catalyzed Hydroboration of Terminal and Internal Alkynes. <cite><i>Org. Lett.</i></cite> <span>2021</span>, <em>23</em>, 8199–8203.10.1021/acs.orglett.1c02854</pub-id> (f) <contrib-group person-group-type=\\\"allauthors\\\"><span>Blasius, C. K.</span>; <span>Vasilenko, V.</span>; <span>Matveeva, R.</span>; <span>Wadepohl, H.</span>; <span>Gade, L. H.</span></contrib-group> Reaction Pathways and Redox States in α-Selective Cobalt-Catalyzed Hydroborations of Alkynes. <cite><i>Angew. Chem., Int. Ed.</i></cite> <span>2020</span>, <em>59</em>, 23010–23014.10.1002/anie.202009625</pub-id> (g) <contrib-group person-group-type=\\\"allauthors\\\"><span>Bories, C. 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引用次数: 0
摘要
我们还了解到 Petit 及其合作者在芳基-烷基炔的顺式-α-加成策略方面的早期发现,他们采用了一种基于膦的配体取代钴酸酐催化剂。因此,原论文中的参考文献 10 应理解如下。(10) (a) Ferrand, L.; Lyu, Y.; Rivera-Hernández, A.; Fallon, B. J.; Amatore, M.; Aubert, C.; Petit, M. Hydroboration and Diboration of Internal Alkynes Catalyzed by a Well-Defined Low-Valent Cobalt Catalyst.Synthesis 2017, 49, 3895-3904.10.1055/s-0036-1588996.(b) Obligacion, J. V.; Neely, J. M.; Yazdani, A. N.; Pappas, I.; Chirik, P. J. Cobalt Catalyzed Z-Selective Hydroboration of Terminal Alkynes and Elucidation of the Origin of Selectivity.J. Am.Chem.Soc., 2015, 137, 5855-5858.10.1021/jacs.5b00936 (c) Ben-Daat, H.; Rock, C. L.; Flores, M.; Groy, T. L.; Bowman, A. C.; Trovitch, R. J. Hydroboration of alkynes and nitriles using an α-diimine cobalt hydride catalyst.Chem.Chem.2017, 53, 7333-7336.10.1039/C7CC02281F (d) Zhang, G.; Wu, S.; Li, J.; Zeng, H.; Mo, Z.; Davis, K.; Zheng, S. Highly efficient and selective hydroboration of terminal and internal alkynes catalysed by a cobalt(II) coordination polymer.Org.Chem.Front.2019, 6, 3228-3233.10.1039/C9QO00834A (e) González, M. J.; Bauer, F.; Breit, B. Cobalt-Catalyzed Hydroboration of Terminal and Internal Alkynes.Org.Lett. 2021, 23, 8199-8203.10.1021/acs.orglett.1c02854 (f) Blasius, C. K.; Vasilenko, V.; Matveeva, R.; Wadepohl, H.; Gade, L. H. Reaction Pathways and Redox States in α-Selective Cobalt-Catalyzed Hydroborations of Alkynes.Angew.Chem.Ed.2020, 59, 23010-23014.10.1002/anie.202009625 (g) Bories, C. C.; Sodreau, A.; Barbazanges, M.; Petit, M. Well-Defined Low-Valent Cobalt Complexes in Catalysis:有机金属学》,2024 年,概述。Organometallics, 2024, 43, 895-923.10.1021/acs.organomet.4c00054 本文尚未被其他出版物引用。
Correction to “Regioselective Hydroboration of Unsymmetrical Internal Alkynes Catalyzed by a Cobalt Pincer-NHC Complex”
We were made aware of an additional early discovery reported by Petit and co-workers on the cis-α-addition strategy for aryl-alkyl alkynes, which employed a phosphine-based ligand-substituted Cobalt-hydride catalyst. Thus, reference 10 in the original paper should be read as follows. (10) (a) Ferrand, L.; Lyu, Y.; Rivera-Hernández, A.; Fallon, B. J.; Amatore, M.; Aubert, C.; Petit, M. Hydroboration and Diboration of Internal Alkynes Catalyzed by a Well-Defined Low-Valent Cobalt Catalyst. Synthesis2017, 49, 3895–3904.10.1055/s-0036-1588996. (b) Obligacion, J. V.; Neely, J. M.; Yazdani, A. N.; Pappas, I.; Chirik, P. J. Cobalt Catalyzed Z-Selective Hydroboration of Terminal Alkynes and Elucidation of the Origin of Selectivity. J. Am. Chem. Soc., 2015, 137, 5855–5858.10.1021/jacs.5b00936 (c) Ben-Daat, H.; Rock, C. L.; Flores, M.; Groy, T. L.; Bowman, A. C.; Trovitch, R. J. Hydroboration of alkynes and nitriles using an α-diimine cobalt hydride catalyst. Chem. Commun.2017, 53, 7333–7336.10.1039/C7CC02281F (d) Zhang, G.; Wu, S.; Li, J.; Zeng, H.; Mo, Z.; Davis, K.; Zheng, S. Highly efficient and selective hydroboration of terminal and internal alkynes catalysed by a cobalt(II) coordination polymer. Org. Chem. Front.2019, 6, 3228–3233.10.1039/C9QO00834A (e) González, M. J.; Bauer, F.; Breit, B. Cobalt-Catalyzed Hydroboration of Terminal and Internal Alkynes. Org. Lett.2021, 23, 8199–8203.10.1021/acs.orglett.1c02854 (f) Blasius, C. K.; Vasilenko, V.; Matveeva, R.; Wadepohl, H.; Gade, L. H. Reaction Pathways and Redox States in α-Selective Cobalt-Catalyzed Hydroborations of Alkynes. Angew. Chem., Int. Ed.2020, 59, 23010–23014.10.1002/anie.202009625 (g) Bories, C. C.; Sodreau, A.; Barbazanges, M.; Petit, M. Well-Defined Low-Valent Cobalt Complexes in Catalysis: An Overview. Organometallics, 2024, 43, 895–923.10.1021/acs.organomet.4c00054 This article has not yet been cited by other publications.
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