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Artículos de revistas sobre el tema "Directed borylation"

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Autor: Grafiati
Publicado: 13 de julio de 2024

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1

Wang, Yan, Le Wang, Ling-Yan Chen, Pinaki S. Bhadury y Zhihua Sun. "Transition Metal-Free Synthesis of Pinacol Arylboronate: Regioselective Boronation of 1,3-Disubstituted Benzenes". Australian Journal of Chemistry 67, n.º 4 (2014): 675. http://dx.doi.org/10.1071/ch13642.

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The regioselective synthesis of pinacol arylboronate has been achieved from 1,3-disubstituted benzene through directed ortho-metallation (DoM)–borylation sequence. A wide range of substituents and borylating reagents were investigated. In situ lithiation and subsequent boronation predominantly occurred at the ortho-position to afford the desired products in moderate yields.
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2

Al Mamari, Hamad H. "Ir-Catalyzed ortho-C-H Borylation of Aromatic C(sp2)-H Bonds of Carbocyclic Compounds Assisted by N-Bearing Directing Groups". Reactions 5, n.º 2 (1 de mayo de 2024): 318–37. http://dx.doi.org/10.3390/reactions5020016.

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C-H borylation is a powerful strategy for the construction of C-B bonds due to the synthetic versatility of C-B bonds. Various transition metals affect the powerful functionalization of C-H bonds, of which Ir is the most common. Substrate-directed methods have enabled directed Ir-catalyzed C-H borylation at the ortho position. Amongst the powerful directing groups in Ir-catalyzed C-H borylation are N-containing carbocyclic systems. This review covers substrate-directed Ir-catalyzed ortho-C-H borylation of aromatic C(sp2)-H bonds in N-containing carbocyclic compounds, such as anilines, amides, benzyl amines, hydrazones, and triazines.
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3

Iqbal, S. A., K. Yuan, J. Cid, J. Pahl y M. J. Ingleson. "Controlling selectivity in N-heterocycle directed borylation of indoles". Organic & Biomolecular Chemistry 19, n.º 13 (2021): 2949–58. http://dx.doi.org/10.1039/d1ob00018g.

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N-Heterocycle directing groups lead to selective borylation of indole at C2 or C7 controlled by heterocycle ring size. With five membered heterocycle directing groups, C2 borylation is disfavoured due to an increased degree of distortion.
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4

Auth, Marin R., Kathryn A. McGarry y Timothy B. Clark. "Phosphorus‐Directed C−H Borylation". Advanced Synthesis & Catalysis 363, n.º 9 (30 de marzo de 2021): 2354–65. http://dx.doi.org/10.1002/adsc.202100173.

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5

Cazorla, Clément, Timothy S. De Vries y Edwin Vedejs. "P-Directed Borylation of Phenols". Organic Letters 15, n.º 5 (marzo de 2013): 984–87. http://dx.doi.org/10.1021/ol303203m.

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6

Iqbal, S. A., J. Pahl, K. Yuan y M. J. Ingleson. "Intramolecular (directed) electrophilic C–H borylation". Chemical Society Reviews 49, n.º 13 (2020): 4564–91. http://dx.doi.org/10.1039/c9cs00763f.

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7

Ros, A., R. Fernández y J. M. Lassaletta. "Functional group directed C–H borylation". Chem. Soc. Rev. 43, n.º 10 (2014): 3229–43. http://dx.doi.org/10.1039/c3cs60418g.

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8

Xu, Ming-Hua. "Metal-free directed C–H borylation". Chinese Science Bulletin 65, n.º 5 (1 de febrero de 2020): 331–33. http://dx.doi.org/10.1360/tb-2019-0657.

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9

De Vries, Timothy S., Aleksandrs Prokofjevs, Jeremy N. Harvey y Edwin Vedejs. "Superelectrophilic Intermediates in Nitrogen-Directed Aromatic Borylation". Journal of the American Chemical Society 131, n.º 41 (21 de octubre de 2009): 14679–87. http://dx.doi.org/10.1021/ja905369n.

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10

Lv, Jiahang, Xiangyang Chen, Xiao-Song Xue, Binlin Zhao, Yong Liang, Minyan Wang, Liqun Jin et al. "Metal-free directed sp2-C–H borylation". Nature 575, n.º 7782 (30 de septiembre de 2019): 336–40. http://dx.doi.org/10.1038/s41586-019-1640-2.

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11

Cazorla, Clement, Timothy S. De Vries y Edwin Vedejs. "ChemInform Abstract: P-Directed Borylation of Phenols." ChemInform 44, n.º 30 (4 de julio de 2013): no. http://dx.doi.org/10.1002/chin.201330194.

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12

Yusuf, Mayyadah, Kanglei Liu, Fang Guo, Roger A. Lalancette y Frieder Jäkle. "Luminescent organoboron ladder compounds via directed electrophilic aromatic C–H borylation". Dalton Transactions 45, n.º 11 (2016): 4580–87. http://dx.doi.org/10.1039/c5dt05077d.

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13

Chotana, Ghayoor, Soneela Asghar, Tayyaba Shahzadi, Meshari Alazmi, Xin Gao, Abdul-Hamid Emwas, Rahman Saleem y Farhat Batool. "Iridium-Catalyzed Regioselective Borylation of Substituted Biaryls". Synthesis 50, n.º 11 (28 de marzo de 2018): 2211–20. http://dx.doi.org/10.1055/s-0036-1591968.

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Biarylboronic esters are generally prepared by directed ortho­-metalation or by Miyaura borylation and hence rely on the presence of a directing group or pre-functionalization. In this paper, the preparation of biarylboronic esters by direct C–H borylation of biaryl substrates is reported. Sterically governed regioselectivities were observed in the borylation of appropriately substituted biaryls by using [Ir(OMe)(COD)]2 precatalyst and di-tert-butylbipyridyl ligand. The resulting biarylboronic esters were isolated in 38–98% yields. The synthesized biarylboronic esters were further successfully employed in C–O, C–Br, and C–C coupling reactions.
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14

Yuan, Kang, Daniel Volland, Sven Kirschner, Marina Uzelac, Gary S. Nichol, Agnieszka Nowak-Król y Michael J. Ingleson. "Enhanced N-directed electrophilic C–H borylation generates BN–[5]- and [6]helicenes with improved photophysical properties". Chemical Science 13, n.º 4 (2022): 1136–45. http://dx.doi.org/10.1039/d1sc06513k.

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15

Keske, Eric C., Brandon D. Moore, Olena V. Zenkina, Ruiyao Wang, Gabriele Schatte y Cathleen M. Crudden. "Highly selective directed arylation reactions via back-to-back dehydrogenative C–H borylation/arylation reactions". Chem. Commun. 50, n.º 69 (2014): 9883–86. http://dx.doi.org/10.1039/c4cc02499k.

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16

Han, Yi, Wei Yuan, Hongyan Wang, Mengwei Li, Wenqin Zhang y Yulan Chen. "Dual-responsive BN-embedded phenacenes featuring mechanochromic luminescence and ratiometric sensing of fluoride ions". Journal of Materials Chemistry C 6, n.º 39 (2018): 10456–63. http://dx.doi.org/10.1039/c8tc02449a.

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17

Thongpaen, Jompol, Thibault E. Schmid, Loic Toupet, Vincent Dorcet, Marc Mauduit y Olivier Baslé. "Directed ortho C–H borylation catalyzed using Cp*Rh(iii)–NHC complexes". Chemical Communications 54, n.º 59 (2018): 8202–5. http://dx.doi.org/10.1039/c8cc03144d.

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18

Motokura, Ken y Kyogo Maeda. "Recent Advances in Heterogeneous Ir Complex Catalysts for Aromatic C–H Borylation". Synthesis 53, n.º 18 (9 de abril de 2021): 3227–34. http://dx.doi.org/10.1055/a-1478-6118.

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AbstractAromatic C–H borylation catalyzed by an Ir complex is among the most powerful methods for activating inert bonds. The products, i.e., arylboronic acids and their esters, are usable chemicals for the Suzuki–Miyaura cross-coupling reaction, and significant effort has been directed toward the development of homogeneous catalysis chemistry. In this short review, we present a recent overview of current heterogeneous Ir-complex catalyst developments for aromatic C–H borylation. Not only have Ir complexes been immobilized on support surfaces with phosphine and bipyridine ligands, but Ir complexes incorporated within solid materials have also been developed as highly active and reusable heterogeneous Ir catalysts. Their catalytic activities and stabilities strongly depend on their surface structures, including linker length and ligand structure.1 Introduction and Homogeneous Ir Catalysis2 Heterogeneous Ir Complex Catalysts for C–H Borylation Reactions3 Other Heterogeneous Metal Complex Catalysts for C–H Borylation Reactions4 Summary and Outlook
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19

Eastabrook, Andrew S. y Jonathan Sperry. "Iridium-Catalyzed Triborylation of 3-Substituted Indoles". Australian Journal of Chemistry 68, n.º 12 (2015): 1810. http://dx.doi.org/10.1071/ch15393.

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Readily available 3-substituted indoles undergo a one-pot iridium-catalyzed triborylation at the C2, C5, and C7 sites. 1H NMR analysis indicates borylation at C2 and C7 occurs first (no monoborylated product is observed), with the third borylation occurring as a separate, distinct step that is sterically directed to C5 by a combination of the substituent at C3 and the boronate at C7. The resulting tetrasubstituted indoles possess a substitution pattern that is cumbersome to prepare using existing methods.
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20

Wang, Zheng‐Jun, Xiangyang Chen, Lei Wu, Jonathan J. Wong, Yong Liang, Yue Zhao, Kendall N. Houk y Zhuangzhi Shi. "Metal‐Free Directed C−H Borylation of Pyrroles". Angewandte Chemie 133, n.º 15 (5 de marzo de 2021): 8581–85. http://dx.doi.org/10.1002/ange.202016573.

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21

Wang, Zheng‐Jun, Xiangyang Chen, Lei Wu, Jonathan J. Wong, Yong Liang, Yue Zhao, Kendall N. Houk y Zhuangzhi Shi. "Metal‐Free Directed C−H Borylation of Pyrroles". Angewandte Chemie International Edition 60, n.º 15 (5 de marzo de 2021): 8500–8504. http://dx.doi.org/10.1002/anie.202016573.

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22

Lee, Bernadette, Madalina T. Mihai, Violeta Stojalnikova y Robert J. Phipps. "Ion-Pair-Directed Borylation of Aromatic Phosphonium Salts". Journal of Organic Chemistry 84, n.º 20 (22 de mayo de 2019): 13124–34. http://dx.doi.org/10.1021/acs.joc.9b00878.

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23

Ros, A., R. Fernandez y J. M. Lassaletta. "ChemInform Abstract: Functional Group Directed C-H Borylation". ChemInform 45, n.º 28 (26 de junio de 2014): no. http://dx.doi.org/10.1002/chin.201428266.

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24

Liu, Yu-hua y Zhong-Jie Jiang. "Computational understanding of catalyst-controlled borylation of fluoroarenes: directed vs. undirected pathway". RSC Advances 10, n.º 33 (2020): 19562–69. http://dx.doi.org/10.1039/d0ra03428b.

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In this work, density functional theory (DFT) calculations are performed to understand the origin of the regioselective C–H borylation of aromatics catalyzed by Co(i)/iPrPNP and Ir(iii)/dtbpy (4,4-di-tert-butyl bipyridine).
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25

Iqbal, Saqib A., Jessica Cid, Richard J. Procter, Marina Uzelac, Kang Yuan y Michael J. Ingleson. "Acyl‐Directed ortho ‐Borylation of Anilines and C7 Borylation of Indoles using just BBr 3". Angewandte Chemie International Edition 58, n.º 43 (21 de octubre de 2019): 15381–85. http://dx.doi.org/10.1002/anie.201909786.

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26

Iqbal, Saqib A., Jessica Cid, Richard J. Procter, Marina Uzelac, Kang Yuan y Michael J. Ingleson. "Acyl‐Directed ortho ‐Borylation of Anilines and C7 Borylation of Indoles using just BBr 3". Angewandte Chemie 131, n.º 43 (12 de septiembre de 2019): 15525–29. http://dx.doi.org/10.1002/ange.201909786.

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27

Hale, Lillian V. A., David G. Emmerson, Emma F. Ling, Andrew J. Roering, Marissa A. Ringgold y Timothy B. Clark. "An ortho-directed C–H borylation/Suzuki coupling sequence in the formation of biphenylbenzylic amines". Organic Chemistry Frontiers 2, n.º 6 (2015): 661–64. http://dx.doi.org/10.1039/c4qo00348a.

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28

Robbins, Daniel W., Timothy A. Boebel y John F. Hartwig. "Iridium-Catalyzed, Silyl-Directed Borylation of Nitrogen-Containing Heterocycles". Journal of the American Chemical Society 132, n.º 12 (31 de marzo de 2010): 4068–69. http://dx.doi.org/10.1021/ja1006405.

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29

Tang, Jia, Thishana Singh, Xingzhen Li, Linpeng Liu y Taigang Zhou. "Selenium-Directed ortho-C–H Borylation by Iridium Catalysis". Journal of Organic Chemistry 85, n.º 18 (19 de agosto de 2020): 11959–67. http://dx.doi.org/10.1021/acs.joc.0c01559.

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30

Iqbal, Saqib A., Jessica Cid, Richard J. Procter, Marina Uzelac, Kang Yuan y Michael J. Ingleson. "Berichtigung: Acyl‐Directed ortho ‐Borylation of Anilines and C7 Borylation of Indoles using just BBr 3". Angewandte Chemie 133, n.º 13 (15 de marzo de 2021): 6930. http://dx.doi.org/10.1002/ange.202101638.

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31

Iqbal, Saqib A., Jessica Cid, Richard J. Procter, Marina Uzelac, Kang Yuan y Michael J. Ingleson. "Corrigendum: Acyl‐Directed ortho ‐Borylation of Anilines and C7 Borylation of Indoles using just BBr 3". Angewandte Chemie International Edition 60, n.º 13 (16 de marzo de 2021): 6854. http://dx.doi.org/10.1002/anie.202101638.

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32

Boebel, Timothy A. y John F. Hartwig. "Silyl-Directed, Iridium-Catalyzedortho-Borylation of Arenes. A One-Potortho-Borylation of Phenols, Arylamines, and Alkylarenes". Journal of the American Chemical Society 130, n.º 24 (junio de 2008): 7534–35. http://dx.doi.org/10.1021/ja8015878.

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33

Crossley, D. L., I. A. Cade, E. R. Clark, A. Escande, M. J. Humphries, S. M. King, I. Vitorica-Yrezabal, M. J. Ingleson y M. L. Turner. "Enhancing electron affinity and tuning band gap in donor–acceptor organic semiconductors by benzothiadiazole directed C–H borylation". Chemical Science 6, n.º 9 (2015): 5144–51. http://dx.doi.org/10.1039/c5sc01800e.

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Electrophilic borylation using BCl3and benzothiadiazole to direct the C–H functionalisation of an adjacent aromatic unit produces fused boracyclic materials with minimally changed HOMO energies but significantly reduced LUMO energies.
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34

Rej, Supriya, Amrita Das y Naoto Chatani. "Pyrimidine-directed metal-free C–H borylation of 2-pyrimidylanilines: a useful process for tetra-coordinated triarylborane synthesis". Chemical Science 12, n.º 34 (2021): 11447–54. http://dx.doi.org/10.1039/d1sc02937a.

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We present the metal-free ortho-C–H borylation of 2-pyrimidylanilines to afford synthetically important boronic esters and tetra-coordinated triarylboranes, which could be useful in materials science as well as Lewis-acid catalysts.
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35

Murata, Miki y Yuna Maeda. "Ruthenium-Catalyzed Functional-Group-Directed C-H Silylation and Borylation". Journal of Synthetic Organic Chemistry, Japan 77, n.º 9 (1 de septiembre de 2019): 876–82. http://dx.doi.org/10.5059/yukigoseikyokaishi.77.876.

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36

Liu, Li, Guanghui Wang, Jiao Jiao y Pengfei Li. "Sulfur-Directed Ligand-Free C–H Borylation by Iridium Catalysis". Organic Letters 19, n.º 22 (7 de noviembre de 2017): 6132–35. http://dx.doi.org/10.1021/acs.orglett.7b03008.

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37

Hyland, Stephen N., Ellie A. Meck, Mariola Tortosa y Timothy B. Clark. "α-Amidoboronate esters by amide-directed alkane C H borylation". Tetrahedron Letters 60, n.º 16 (abril de 2019): 1096–98. http://dx.doi.org/10.1016/j.tetlet.2019.03.020.

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38

Prokofjevs, Aleksandrs y Edwin Vedejs. "N-Directed Aliphatic C–H Borylation Using Borenium Cation Equivalents". Journal of the American Chemical Society 133, n.º 50 (21 de diciembre de 2011): 20056–59. http://dx.doi.org/10.1021/ja208093c.

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39

Wen, Jian, Dingyi Wang, Jiasheng Qian, Di Wang, Chendan Zhu, Yue Zhao y Zhuangzhi Shi. "Rhodium-Catalyzed PIII -Directed ortho -C−H Borylation of Arylphosphines". Angewandte Chemie 131, n.º 7 (25 de enero de 2019): 2100–2104. http://dx.doi.org/10.1002/ange.201813452.

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40

Wen, Jian, Dingyi Wang, Jiasheng Qian, Di Wang, Chendan Zhu, Yue Zhao y Zhuangzhi Shi. "Rhodium-Catalyzed PIII -Directed ortho -C−H Borylation of Arylphosphines". Angewandte Chemie International Edition 58, n.º 7 (25 de enero de 2019): 2078–82. http://dx.doi.org/10.1002/anie.201813452.

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41

Genov, Georgi R., James L. Douthwaite, Antti S. K. Lahdenperä, David C. Gibson y Robert J. Phipps. "Enantioselective remote C–H activation directed by a chiral cation". Science 367, n.º 6483 (12 de marzo de 2020): 1246–51. http://dx.doi.org/10.1126/science.aba1120.

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Chiral cations have been used extensively as organocatalysts, but their application to rendering transition metal–catalyzed processes enantioselective remains rare. This is despite the success of the analogous charge-inverted strategy in which cationic metal complexes are paired with chiral anions. We report here a strategy to render a common bipyridine ligand anionic and pair its iridium complexes with a chiral cation derived from quinine. We have applied these ion-paired complexes to long-range asymmetric induction in the desymmetrization of the geminal diaryl motif, located on a carbon or phosphorus center, by enantioselective C–H borylation. In principle, numerous common classes of ligand could likewise be amenable to this approach.
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42

Ishiyama, Tatsuo. "Developments of New Catalytic Borylation Reactions Directed towards Fine Organic Synthesis". Journal of Synthetic Organic Chemistry, Japan 61, n.º 12 (2003): 1176–85. http://dx.doi.org/10.5059/yukigoseikyokaishi.61.1176.

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43

Larsen, Matthew A., Seung Hwan Cho y John Hartwig. "Iridium-Catalyzed, Hydrosilyl-Directed Borylation of Unactivated Alkyl C–H Bonds". Journal of the American Chemical Society 138, n.º 3 (15 de enero de 2016): 762–65. http://dx.doi.org/10.1021/jacs.5b12153.

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44

Tian, Ya-Ming, Xiao-Ning Guo, Zhu Wu, Alexandra Friedrich, Stephen A. Westcott, Holger Braunschweig, Udo Radius y Todd B. Marder. "Ni-Catalyzed Traceless, Directed C3-Selective C–H Borylation of Indoles". Journal of the American Chemical Society 142, n.º 30 (27 de junio de 2020): 13136–44. http://dx.doi.org/10.1021/jacs.0c05434.

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45

Morris, Kelsey C., Shawn E. Wright, Gillian F. Meyer y Timothy B. Clark. "Phosphine-Directed sp3 C–H, C–O, and C–N Borylation". Journal of Organic Chemistry 85, n.º 22 (18 de septiembre de 2020): 14795–801. http://dx.doi.org/10.1021/acs.joc.0c01706.

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46

Ingleson, Michael J. "Metal-free acyl-directed electrophilic C-H borylation using just BBr3". Science China Chemistry 62, n.º 12 (8 de noviembre de 2019): 1547–48. http://dx.doi.org/10.1007/s11426-019-9642-0.

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47

Roering, Andrew J., Lillian V. A. Hale, Phillip A. Squier, Marissa A. Ringgold, Emily R. Wiederspan y Timothy B. Clark. "Iridium-Catalyzed, Substrate-Directed C–H Borylation Reactions of Benzylic Amines". Organic Letters 14, n.º 13 (25 de junio de 2012): 3558–61. http://dx.doi.org/10.1021/ol301635x.

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48

Robbins, Daniel W., Timothy A. Boebel y John F. Hartwig. "ChemInform Abstract: Iridium-Catalyzed, Silyl-Directed Borylation of Nitrogen-Containing Heterocycles." ChemInform 41, n.º 32 (23 de julio de 2010): no. http://dx.doi.org/10.1002/chin.201032051.

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49

Wang, Yandong, Jingyi Bai, Youqing Yang, Wenxuan Zhao, Yong Liang, Di Wang, Yue Zhao y Zhuangzhi Shi. "Rhodium-catalysed selective C–C bond activation and borylation of cyclopropanes". Chemical Science 12, n.º 10 (2021): 3599–607. http://dx.doi.org/10.1039/d0sc06186g.

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50

Xu, Feiyang, Olivia M. Duke, Daniel Rojas, Hanka M. Eichelberger, Raphael S. Kim, Timothy B. Clark y Donald A. Watson. "Arylphosphonate-Directed Ortho C–H Borylation: Rapid Entry into Highly-Substituted Phosphoarenes". Journal of the American Chemical Society 142, n.º 28 (27 de junio de 2020): 11988–92. http://dx.doi.org/10.1021/jacs.0c04159.

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