Relevant bibliographies by topics / Soft enolization

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters

Academic literature on the topic 'Soft enolization'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Soft enolization"

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Chen, Ming, and Guangbin Dong. "Direct Catalytic Desaturation of Lactams Enabled by Soft Enolization." Journal of the American Chemical Society 139, no. 23 (2017): 7757–60. http://dx.doi.org/10.1021/jacs.7b04722.

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Coltart, Don, Guoqiang Zhou, and Julianne Yost. "A Direct Aldol Addition of Simple Thioesters Employing Soft Enolization." Synthesis 2007, no. 3 (2007): 478–82. http://dx.doi.org/10.1055/s-2006-958959.

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Aderibigbe, Sabrina O., та Don M. Coltart. "Synthesis of 1,3-Diketones and β-Keto Thioesters via Soft Enolization". Journal of Organic Chemistry 84, № 15 (2019): 9770–77. http://dx.doi.org/10.1021/acs.joc.9b00397.

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Obydennov, Dmitrii L., Viktoria V. Viktorova, Elena V. Chernyshova, Alexander S. Shirinkin, Sergey A. Usachev, and Vyacheslav Y. Sosnovskikh. "Direct Synthesis of 5-Acyl-3-oxy-4-pyrones Based On Acid-­Catalyzed Acylation of Enaminodiones with Acylbenzotriazoles via Soft Enolization." Synthesis 52, no. 15 (2020): 2267–76. http://dx.doi.org/10.1055/s-0040-1707471.

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A novel convenient acid-catalyzed acylation of enaminodiones with acylbenzotriazoles via soft enolization has been developed for the direct synthesis of hard-to-reach 5-acyl-3-oxy-4-pyrones. The important advantages of the reaction include broad substrate scope, mild conditions, scalability, and readily isolation of products by crystallization without the use of chromatography. Further modification of the pyrone ring and synthesis of various azaheterocycles via ring-opening transformation have been demonstrated for the preparation of potential scaffolds for inhibition of metalloenzymes.
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Alfie, Rachel J., Ngoc Truong, Julianne M. Yost та Don M. Coltart. "A kinetically controlled direct aldol addition of α-chloro thioesters via soft enolization". Tetrahedron Letters 58, № 3 (2017): 185–89. http://dx.doi.org/10.1016/j.tetlet.2016.11.010.

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Kim, Hun Young, Seokwoo Lee, Sanghee Kim та Kyungsoo Oh. "Regiodivergent Halogenation of (E)-β-Chlorovinyl Ketones via Soft α-Vinyl Enolization Strategy". Organic Letters 17, № 3 (2015): 450–53. http://dx.doi.org/10.1021/ol5034354.

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Yost, Julianne M., Rachel J. Alfie, Emily M. Tarsis, Insun Chong та Don M. Coltart. "Direct carbon–carbon bond formation via soft enolization: aldol addition of α-halogenated thioesters". Chem. Commun. 47, № 1 (2011): 571–72. http://dx.doi.org/10.1039/c0cc02345k.

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8

Lewis, Jennifer D., Stijn Van de Vyver, and Yuriy Román-Leshkov. "Acid-Base Pairs in Lewis Acidic Zeolites Promote Direct Aldol Reactions by Soft Enolization." Angewandte Chemie 127, no. 34 (2015): 9973–76. http://dx.doi.org/10.1002/ange.201502939.

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Lewis, Jennifer D., Stijn Van de Vyver, and Yuriy Román-Leshkov. "Acid-Base Pairs in Lewis Acidic Zeolites Promote Direct Aldol Reactions by Soft Enolization." Angewandte Chemie International Edition 54, no. 34 (2015): 9835–38. http://dx.doi.org/10.1002/anie.201502939.

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St-Gelais, Alexis, Jérôme Alsarraf, Jean Legault, Charles Gauthier, and André Pichette. "Soft-enolization Baker–Venkataraman Rearrangement Enabled Total Synthesis of Dirchromones and Related 2-Substituted Chromones." Organic Letters 20, no. 23 (2018): 7424–28. http://dx.doi.org/10.1021/acs.orglett.8b03148.

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Dissertations / Theses on the topic "Soft enolization"

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Mako, Teresa Louise. "Electronic, Structural, and Catalytic Analyses of Iron Pincer Complexes and Methods for the Direct Functionalization of Lactide." Thesis, Boston College, 2017. http://hdl.handle.net/2345/bc-ir:107588.

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Thesis advisor: Amir Hoveyda<br>Chapter 1: A review of recent iron catalyzed cross coupling advances. Abstract: Herein, advances in iron catalyzed cross coupling from 2010-2015 are thoroughly reviewed. Newly developed protocols and the mechanistic work that has been conducted to gain understanding of these systems are discussed. Specific emphasis is placed on the techniques used for mechanistic investigations. Chapter 2: Cross coupling applications of pyridyl(diimine) iron complexes. Abstract: Versatile and redox noninnocent pyridyl(diimine) iron complexes were explored for catalytic ability in iron catalyzed cross coupling reactions. These complexes were found active for the coupling of benzyl halides and aryl Grignard reagents, producing moderate yields. Although active for the coupling of cyclohexyl chloride and aryl Grignard reagents, the catalytic ability of these complexes was not general for alkyl halides, and the majority of substrates readily underwent β- hydride elimination. Mechanistic studies indicated the role of PDIFe(I)Ph and PDIFe(0)(N2)2 as offcycle species. Additionally, these complexes were employed for the Suzuki-type coupling of alkyl halides with 1,1-bis(boronates), leading to the conclusion that the processes were instead base catalyzed. Chapter 3: Electronic structure analysis and catalytic applications of carbeno(diamidine) iron complexes. Abstract: Iron(II) pincer complexes carbeno(diamidine) iron dibromide [(CDA)FeBr2] and bis(N-heterocyclic carbene)pyridine iron dibromide [(CNC)FeBr2] were examined by magnetic circular dichroism and density functional theory studies to invesitgate the effect that NHC moieties have on electronic structure and bonding in tridentate pincer ligands. The increased Fe-C bonding and pincer-donating abilities that result from NHC incorporation have a direct impact on spin state and observed ligand fields. Additionally, the position of the NHC moiety on the tridentate ligand and the overall geometry of the molecule were found to effect the net donor ability of the pincers and the strength of the iron-pincer interactions. Three new variations of the CDA ligand were developed and evaluated for catalytic ability in olefin hydrogenation and atom transfer radical polymerization reactions. While iron CDA complexes were found to be mediocre catalysts for both transformations, a cobalt CDA dimer complex was developed that showed promising catalytic activity for olefin hydrogenation. Chapter 4: The direct functionalization of lactide. Abstract: In an effort to provide cyclic diesters that could generate useful and biodegradable polymers, the direct functionalization of lactide was pursued. Lactide undergoes ring opening under a wide range of conditions, and thus traditional methods used for the functionalization of lactones could not be employed here. Typical routes for the formation of cyclic diesters involve multi-step syntheses and low yielding cyclization reactions. Herein, C-H activation and soft enolization have been identified as promising avenues toward the direct functionalization of lactide. Palladium catalyzed C-H activation was not amenable for lactide, however, soft enolization techniques led to low yields of the desired functionalized product<br>Thesis (MS) — Boston College, 2017<br>Submitted to: Boston College. Graduate School of Arts and Sciences<br>Discipline: Chemistry
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Sauer, Scott J. "Direct Carbon--Carbon Bond Formation Through Reductive Soft-Enolization of α-Halothioesters and The Total Synthesis of (+)-Mefloquine." Diss., 2011. http://hdl.handle.net/10161/3952.

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<p>The direct addition of enolizable aldehydes and sulfonyl imines to &alpha;-halo thioesters to produce &beta;-hydroxy/amino thioesters enabled by reductive soft enolization is reported. The transformation is operationally simple and efficient and has the unusual feature of giving high <italic>syn</italic>-selectivity, which is the opposite of that produced for the aldol addition with (thio)esters under conventional conditions. This method is tolerant to aldehydes and imines that not only contain acidic &alpha;-protons, but also towards electrophiles containing other acidic protons and base-sensitive functional groups. Moreover, excellent diastereoselectivity is achieved when a chiral non-racemic &alpha;-hydroxy aldehyde derivative is used. Using MgI<sub>2</sub> and Ph<sub>3</sub>P, this method gives a wide range of aldol and Mannich products in good yields with high <italic>syn</italic>-diastereoselectivity. The products obtained from the reductive aldol and Mannich reactions are synthetically important intermediates in both polyketide and &beta;-lactam synthesis, respectively, and can be readily derivatized to form many carbonyl derivatives through known manipulation of the thioester moiety.</p><p><p>Also, herein the asymmetric synthesis of (+)-mefloquine, a potent anti-malarial compound, is described. The synthesis is based on a key enantioselective Darzens reaction between a chiral &alpha;-chloro-N-amino cyclic carbamate (ACC) hydrazone and a quinoline-based aldehyde. This is a novel methodology developed by our lab, which gives a highly enantioenriched epoxide that can be further functionalized to give both enantiomers of mefloquine.</p><br>Dissertation
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Yost, Julianne. "Leveraging the Reactivity of Thioesters in the Development of New Methods for Carbon–Carbon Bond Formation." Diss., 2009. http://hdl.handle.net/10161/1053.

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<p>Carbon–carbon bond-forming reactions comprise the most important class of synthetic transformations. The development of improved and simplified approaches to these reactions will make important and useful contributions not only to the field of synthetic organic chemistry, but also to the many other areas of science that rely on it. Enolate based carbon–carbon bond formation is fundamental to synthetic organic chemistry and has provided the foundation for advancement to its present state. Herein, an important aspect of enolate chemistry is explored: the development of direct methods for carbon–carbon bond formation based on soft enolization of thioesters. Both metal-mediated and organocatalytic approaches to soft enolization are described.</p><p>MgBr<sub>2</sub>·OEt<sub>2</sub>-promoted soft enolization conditions were developed and successfully applied to the aldol addition and Mannich reactions, resulting in a mild and efficient direct reaction that is inexpensive and can be used under atmospheric conditions. A conjugate addition approach to chemoselective deprotonation was also explored and applied to the aldol. In addition, the first organocatalytic Mannich reaction based on proximity-accelerated intramolecular soft enolization of thioesters was developed. Given the advantages of soft enolization, including the inherent operational simplicity, and the accessibility of thioesters, we expect these methods to meet with wide application.</p><br>Dissertation
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4

Garnsey, Michelle Renee. "Direct Carbon-Carbon Bond Formation via Base Mediated and Reductive Soft Enolization of Thioesters, the First Asymmetric Total Synthesis of (+)- and (-)-Clusianone, and Progress Toward the Asymmetric Total Synthesis of Brasilicardin A." Diss., 2012. http://hdl.handle.net/10161/5573.

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<p>Three methodology studies and two total synthesis endeavors are presented. First, a study of Lewis acid and hydrogen bond mediated soft enolization of thioesters and their addition to imines in the Mannich reaction is reported. MgBr2*OEt2 and Hunig's base are used in concert with bulky thioesters and aromatic aldehydes to generate syn-b-aminothioesters with moderate diastereoselectivity and yield. Next, a biomimetic organocatalytic Mannich reaction is presented using a chiral cinchona alkaloid to effect the enantioselective addition of an imines to thioesters with high yield and diastereoselectivity and enantioselectivities up to 88:12.</p><p>The direct addition of enolizable aldehydes to a-iodo thioesters to produce b-hydroxy thioesters enabled by reductive soft enolization is reported. The transformation is operationally simple and efficient and has the unusual feature of giving high syn-selectivity, which is the opposite of that produced in the aldol addition with (thio)esters under conventional conditions. This method is tolerant to aldehydes and imines that contain acidic a-protons, as well as electrophiles containing other acidic protons and base-sensitive functional groups.</p><p>The development of a strategy for the asymmetric synthesis of a large portion of the polycyclic polyprenylated acyl phloroglucinols via N-amino cyclic carbamate hydrazones, and its application to the first asymmetric total synthesis of both (+)- and (-)-clusianone is discussed. The clusianones are synthesized with an er of 99:1 and their anti-HIV activity is found to be 1.53 and 1.13 &#61549;M, respectively. A library of clusianone-like compounds is synthesized and their biological activity has been probed.</p><p>Finally, efforts towards the total synthesis of brasilicardin A are reported. An appropriate model system was synthesized, and conditions were established using a pinene-based aldol reaction to synthesize the b-methoxy-a-amino ester side chain of the molecule. Next, efforts toward the synthesis of the anti-syn-anti- perhydro-phenanthrene core are discussed.</p><br>Dissertation
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Book chapters on the topic "Soft enolization"

1

Masse, C. E. "C-Acylation Using Soft Enolization." In Three Carbon-Heteroatom Bonds: Acid Halides; Carboxylic Acids and Acid Salts. Georg Thieme Verlag KG, 2007. http://dx.doi.org/10.1055/sos-sd-020-00927.

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2

Taber, Douglass F. "C–C Bond Construction: The Zhu Synthesis of Goniomitine." In Organic Synthesis. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780190646165.003.0023.

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Non-enolizable β-keto esters such as 3 are fragile and difficult to prepare. Karl J. Hale of Queen’s University Belfast devised (Org. Lett. 2013, 15, 370) soft enolization con­ditions for methoxycarbonylation of 1 with 2. Zheng Huang of the Shanghai Institute of Organic Chemistry coupled (Org. Lett. 2013, 15, 1144) 4 with 5 under Ir catalysis to make 6. Tomoya Miura and Masahiro Murakami of Kyoto University combined (Angew. Chem. Int. Ed. 2013, 52, 3883) the diazo precursor 8 with the allylic alco­hol 7 to give 9, the product of Claisen rearrangement. Tsuyoshi Satoh of the Tokyo University of Science showed (Tetrahedron Lett. 2013, 54, 2533) that the combina­tion of the carbenoid 10 with a ketone enolate 11 led to the cyclopropanol (not illus­trated). Jin Kun Cha of Wayne State University found (Org. Lett. 2013, 15, 1780) that such cyclopropanols coupled with an acid chloride 12 under Pd catalysis to give the diketone 13. Christopher J. O’Brien of Dublin City University established (Chem. Eur. J. 2013, 19, 5854) conditions for the catalytic Wittig reaction of 14 with 15 to give 16, with in situ reduction of the phosphine oxide. Amir H. Hoveyda of Boston College showed (Org. Lett. 2013, 15, 1414) that the allene of 17 underwent selective borylation, lead­ing after coupling with 18 to the triene 19. Damian W. Young of the Broad Institute demonstrated (Org. Lett. 2013, 15, 1218) that ring-closing metathesis gave the alkenyl silane 20 with high geometric control. Halogenation to give 21 could then proceed with either retention or inversion of alkene geometry. Jianwei Sun of the Hong Kong University of Science and Technology and Zigang Li of the Shenzen Graduate School of Peking University condensed (J. Am. Chem. Soc. 2013, 135, 4680) the alkyne 22 with 23 to give the trisubstituted alkene 24 with high geometric control. The condensation worked equally well with medium and large ring ethers. Hua-Jian Xu of the Hefei University of Technology combined (Org. Lett. 2013, 15, 1472) the bromo alkyne 25 with the carboxylate 26 to give the nitrile 27.
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