Relevant bibliographies by topics / Camphor Rearrangement

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

Academic literature on the topic 'Camphor Rearrangement'

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

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Journal articles on the topic "Camphor Rearrangement"

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Eichinger, Peter C. H., and John H. Bowie. "Gas-phase rearrangements involving homoenolate anions. The isocamphanone/camphor rearrangement." Rapid Communications in Mass Spectrometry 8, no. 3 (1994): 262–64. http://dx.doi.org/10.1002/rcm.1290080308.

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McIntosh, John M., and Kenneth C. Cassidy. "An unexpected acyloin rearrangement and oxidation of a camphor derivative." Canadian Journal of Chemistry 69, no. 8 (1991): 1315–19. http://dx.doi.org/10.1139/v91-195.

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The trimethylsiyl ether 7 derived in two steps from camphor underwent ring expansion via an acylion rearrangement to afford two products (8 and 9) when desilylation was attempted. Compound 9 was stable but 8 was oxidized in air to homocamphoric acid anhydride 11. Key words: camphor, acyloin rearrangement.
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Dadson, William M., John H. Hutchinson, and Thomas Money. "Formation of synthetically useful camphor derivatives: mechanistic aspects." Canadian Journal of Chemistry 68, no. 10 (1990): 1821–28. http://dx.doi.org/10.1139/v90-284.

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Evidence is presented to support the occurrence of a 3,2-endo-methyl shift during the C(8)-bromination of 3,3-dibromocamphor. The mechanism proposed for the rearrangement of (+)-3-bromocamphor to (−)-6-bromocamphor is also supported by experimental evidence. Keywords: 8-bromocamphor, 6-bromocamphor, 3,2-endo methyl shifts.
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Dalko, Peter I., and Yves Langlois. "Stereoselective hetero-Claisen rearrangement of camphor derived oxazoline-N-oxides." Tetrahedron Letters 39, no. 15 (1998): 2107–10. http://dx.doi.org/10.1016/s0040-4039(98)00062-8.

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Biggs, Robyn Aryn, and William W. Ogilvie. "Facile synthesis of isocampholenic acids by the rearrangement of camphor derivatives." Tetrahedron 69, no. 5 (2013): 1539–45. http://dx.doi.org/10.1016/j.tet.2012.12.011.

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Kovalev, Vladimir, Elvira Shokova, Vyacheslav Chertkov, and Victor Tafeenko. "Unknown Camphor: Regioselective Rearrangement under Acylation in a CF3SO3H/(CF3CO)2O System." European Journal of Organic Chemistry 2016, no. 8 (2016): 1508–12. http://dx.doi.org/10.1002/ejoc.201501581.

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DALKO, P. I., and Y. LANGLOIS. "ChemInform Abstract: Stereoselective Hetero-Claisen Rearrangement of Camphor-Derived Oxazoline N-Oxides." ChemInform 29, no. 27 (2010): no. http://dx.doi.org/10.1002/chin.199827145.

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MCINTOSH, J. M., and K. C. CASSIDY. "ChemInform Abstract: An Unexpected Acyloin Rearrangement and Oxidation of a Camphor Derivative." ChemInform 22, no. 50 (2010): no. http://dx.doi.org/10.1002/chin.199150078.

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Biggs, Robyn Aryn, and William W. Ogilvie. "ChemInform Abstract: Facile Synthesis of Isocampholenic Acids by the Rearrangement of Camphor Derivatives." ChemInform 44, no. 27 (2013): no. http://dx.doi.org/10.1002/chin.201327049.

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Harger, Martin J. P., and Ramesh Sreedharan-Menon. "Asymmetric induction in the base induced rearrangement of N-(diphenylphosphinoyl)-O-(camphor-10-sulfonyl)hydroxylamine." Journal of the Chemical Society, Chemical Communications, no. 14 (1994): 1619. http://dx.doi.org/10.1039/c39940001619.

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Dissertations / Theses on the topic "Camphor Rearrangement"

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Biggs, Robyn A. "5-and 6-Membered Hydrazides as Potential Catalysts for Diels-Alder Cycloadditions." Thesis, Université d'Ottawa / University of Ottawa, 2014. http://hdl.handle.net/10393/30723.

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Part A: Synthesis of 5- and 6-Membered Camphor-Based Hydrazides as Organocatalysts for Cycloaddition Reactions The favorable environmental and reactivity qualities of organocatalysts are contributing to the popularization of this method for the acceleration of enantioselective reactions. Research in our group has been focused on the synthesis of camphor-derived hydrazide based organocatalysts for enantioselective cycloaddition processes. Recent results suggest that the presence of an exocyclic electron withdrawing group on the hydrazide moiety, as well as the incorporation of the hydrazide m
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Chang, Chihyi, and 張之頤. "Study on the rearrangement of Camphor-derivedalkyl [3.2.1]bicyclic alcohols to dimethyl alkyl[2.2.2]bicyclic octanes." Thesis, 2012. http://ndltd.ncl.edu.tw/handle/26297390456215178429.

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碩士<br>國立暨南國際大學<br>應用化學系<br>100<br>Addition reation of Camphor derived [3.2.1]bicyclic hydroxy ketone with alkyl organic lithium compound and Grignard reagent to give Camphor derived [3.2.1] bicyclic diol compound, and then the acetalization generated the acetyl alcohol product. Then, rearrangement of various types of [3.2.1]bicyclic acetyl alcohol is catalyzed by the catalytic amount of p-toluenesulfonic acid and generated camphor molecule derived [2.2.2]bicyclic product. Then, this camphor molecule derived [2.2.2]bicyclic acetyl compound soluble in methanol reacted with sodium hydroxide to gi
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Chao, Hou-Hsun, and 趙侯勛. "Investigation of Rearrangements of Investigation of Rearrangements of Camphor Derivatives." Thesis, 2002. http://ndltd.ncl.edu.tw/handle/81692094303147571431.

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碩士<br>朝陽科技大學<br>應用化學系碩士班<br>90<br>Abstract Enantiomermerically pure camphor and fenchone derivatives have found widespread and useful application as chiral reagents, auxiliaries and catalysts in asymmetric synthesis, as well as versatile chiral synthetic intermediates for the total synthesis of high-value molecules ( e.g. natural products ). Herein, we have prepared of enantiopure camphor derivatives mesylate camphene 75、6,6-Dimet -hyl-3-oxa-tricyclo[5.2.1.01,5]decan-5-ol 83 and benzyl ether alcohol 87 via Wagner-Meerwein rearrangement from commercially available camphor which could prove to
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Book chapters on the topic "Camphor Rearrangement"

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Paquette, Leo A., Mangzhu Zhao, Francis Montgomery, et al. "From D-Camphor to the Taxanes. Highly Concise Rearrangement- Based Approaches to Taxusin and Taxol." In Current Trends in Organic Synthesis. Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4801-0_4.

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2

Taber, Douglass. "The Takayama Synthesis of (-)-Cernuine." In Organic Synthesis. Oxford University Press, 2011. http://dx.doi.org/10.1093/oso/9780199764549.003.0094.

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(-)-Cernuine 3 falls in the subset of the Lycopodium alkaloids that feature a bicyclic aminal core. There had not been a total synthesis of this class of alkaloids until the recent (Organic Lett. 2008, 10, 1987) work of Hiromitsu Takayama of Chiba University. The key step in this synthesis was a diastereoselective intramolecular reductive amination, converting 1 to 2. As is apparent from the 3-D projection, (-)-cernuine 3 has a tricyclic trans-anti-trans aminal core, with an appended six-membered ring, both branches of which are axial on the core. While the branch that is part of the aminal could be expected to equilibrate, the other branch had to be deliberately installed. The synthesis began with (+)-citronellal 4, each enantiomer of which is commercially available in bulk. After protection and ozonolysis, the first singly-aminated stereogenic center was installed by enantioselective, and therefore diastereoselective, addition of 5 to the azodicarboxylate 6, mediated by the organocatalyst 7. Reductive cleavage of the N-N bond followed by acetal methanolysis converted 8 to 9. Ionization followed by allyl silane addition then delivered 11, having the requisite axial alkyl branch. The next two tasks were the assembly of the second of the four rings of 3, and the construction of the second single-aminated stereogenic center. The ring was assembled by deprotection of 11 followed by acylation with acryloyl chloride, to give 12. Grubbs cyclization followed by hydrogenation then led to 13. Homologation of 13 to the aldehyde 14 set the stage for condensation with the camphor-derived tertiary amine 15, following the protocol developed by Kobayashi. Sequential imine formation, aza-Cope rearrangement, and hydrolysis led to 1 in 94% de. One could envision reduction of the lactam carbonyl of 1 to an aldehyde equivalent, that would then, under acidic conditions, condense to form the desired aminal 2. This approach was, however, not successful. As an alternative, conditions were developed to convert 1 to the amidine 16. Reduction then proceeded with the expected high diastereocontrol, to give the cis 1,3-fused aminal 2. This was not isolated, but was directly acylated with acryloyl chloride, to 17.
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