Potassium Iodate (KIO3)-A Novel Reagent for Thedehydrogenation of Cyclohexanone

Potassium Iodate (KIO3)-A Novel Reagent for Thedehydrogenation of Cyclohexanone

Global Journal of Science Frontier Research: B Chemistry Volume 20 Issue 2 Version 1.0 Year 2020 Type : Double Blind Peer Reviewed International Research Journal Publisher: Global Journals Online ISSN: 2249-4626 & Print ISSN: 0975-5896 Potassium Iodate (KIO3)-A Novel Reagent for the Dehydrogenation of Cyclohexanone By Harinakshi, Rashmi, Yashika, Balakrishn Kalluraya, Nagma & K. M. Lokanatha Rai Mangalore University Abstract- Anovel reagent for the dehydrogenation of cyclohexanone has been reported. Cyclohexanone was made to react with a novel reagent – KIO3 as oxidizing agent in presence of acetic acid. The dehydrogenated compound was confirmed by comparison with the known compound. This metal free process is less time consuming and the easy availability and its stability makes it a versatile novel reagent for the dehydrogenation of cyclohexanone. GJSFR-B Classification : FOR Code: 250499 PotassiumIodateKIOANovelReagentfortheDehydrogenationofCyclohexanone Strictly as per the compliance and regulations of: © 2020. Harinakshi, Rashmi, Yashika, Balakrishn Kalluraya, Nagma & K. M. Lokanatha Rai. This is a research/review paper, distributed under the terms of the Creative Commons Attribution-Noncommercial 3.0 Unported License http://creative commons.org/licenses/by-nc/3.0/), permitting all non commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. Potassium Iodate (KIO3) - A Novel Reagent for the Dehydrogenation of Cyclohexanone α σ ρ Ѡ ¥ § Harinakshi , Rashmi , Yashika , Balakrishn Kalluraya , Nagma & K. M. Lokanatha Rai Abstract- Anovel reagent for the dehydrogenation of trimethylsilylation of alcohols and phenols in the 5 cyclohexanone has been reported. Cyclohexanone was made presence of HMDS and iodination of aromatic amines . to react with a novel reagent – KIO as oxidizing agent in 3 Recently Kelsey B. LaMartina et al showed that the presence of acetic acid. The dehydrogenated compound was combinations of ammonium iodate and catalytic N- confirmed by comparison with the known compound. This hydroxyphthalimide (NHPI) in presence of acetic acid for metal free process is less time consuming and the easy 2020 the selective oxidation of n-butylbenzene directly to 1- availability and its stability makes it a versatile novel reagent 6 r for the dehydrogenation of cyclohexanone. phenylbutyl acetate in high yield and it is also reported ea as catalyst for the α-sulfenylation of enaminones7. Y I. Introduction Recently Rai et al used KIO3, as a novel oxidising agent 211 for the synthesis of isoxazolines8. he conversion of ketones to the more versatile This prompted us to use this reagent for the enone functionality is an important transformation dehydrogenation of cyclohexanone. This metal free in organic synthesis due to the utility of enones as process is less time consuming and the easy availability T V intermediates in multistep production of and its stability makes it a versatile novel reagent for the II pharmaceuticals and biologically active compounds. dehydrogenation of cyclohexanone. Further applications ue ersion I One of the earliest strategies for the synthesis of enones s of this novel reagent are under progress. s involves the pre-functionalization of the ketone a- Typically the dehydrogenation is carried out by I position with a halogen, which can be eliminated upon heating equimolar mixture of cyclohexanone, potassium XX treatment with base at high temperatures.1 Utilizing iodate and acetic acid in ethanol under reflux for 4-6 hrs. aselenide intermediates is similarly broad in scope as The dehydrogenated compound was confirmed by these species can be formed under mild conditions 2 comparison with the known compound. through trapping of a lithium enolate with PhSeX. The ) Probable mechanism is given in Scheme. The second step entails conversion of the selenide moiety to B reaction involves the protonation of cyclohexanone ( the corresponding selenoxide, which allows for followed by enolization and esterification leads to enol spontaneous generation of aunsaturated products via a ester. This ester undergoes rearrangement to give α- 2,3-sigmatropic rearrangement.3 keto ester, followed by cis elimination of HIO leads to Literature survey revealed KIO /KI in acetic acid 2 Research Volume 3 the formation of cyclohexenone in almost quantitative is used as iodination agent at 110oC.4Combination of yield. iodic acid and potassium iodide has been used for Frontier Science of Journal Global II. Experimental presence of acetic acid in catalytic amount and ethanol as solvent. The completion of the reaction was a) Dehydrogenation of cyclohexanone monitored by TLC. After completion, the residue was In a typical procedure cyclohexanone was to extracted with ether (25mL×3), the extract was washed react with a new reagent KIO (1.2mmol) as oxidizing 3 successively with water (15mL×2), 10% NaOH agent under reflux conditions for 4-6hours in the Author α σ ρ ¥ §: Department of Chemistry, Mangalore University, PG centre, Jnanakaveri, Chikaluvar, Kodagu, India. Author Ѡ: Department of Chemistry, Mangalore University, Mangala Gangotri, Konaje. e-mail: [email protected] ©2020 Global Journals Potassium Iodate (KIO3) - A Novel Reagent for the Dehydrogenation of Cyclohexanone (15mL×2), and saturated brine solution (10mL).The organic layer was dried over anhydrous Na2SO4. References Références Referencias 1. Larock, R. C. Comprehensive Organic Transformations; VCH Publishers: New York, 1989; pp 129–131. 2. A. Reich, H. J.; Reich, I. L.; Renga, J. M. J. Am. Chem. Soc. 1973, 95, 5813–5815. (b) Sharpless, K. B.; Lauer, R. F.; Teranishi, A. Y. J. Am. Chem. Soc. 1973, 95, 6137–6139. 3. Mukaiyama, T.; Matsuo, J.-i; Kitagawa, H. Chem. Lett. 2000, 29, 1250– 1251. 2020 4. Triandafillidi I and Kokotos C G 2016 Green r Organocatalytic Synthesis of Isoxazolines via a One- ea Pot Oxidation of Allyloximes Organic letters 19 106. Y 5. Mohammad Ali Zolfigol, Ardeshir Khazaei, Eskandar 221 Kolvari, Nadiya Koukabi, Hamid Soltani, Maryam Behjunia, and Vahid, ARKIVOC 2009, 200-210. 6. Kelsey B. LaMartina, Haley K. Kuck, Linda S. Oglesbee, Asma Al-Odaini and Nicholas C. Boaz, V Beilstein J. Org. Chem. 2019, 15, 602–609. II 7. Wang Y, Duo F, Peng S, Jia F and Fan C, Journal of ue ersion I s colloid and interface science, 2014, 430 31. s 8. Sumana Y. Kotian, Abishad P. M. K. Byrappa and K. I M. Lokanatha Rai, J. Chem. Sci., 2019, 131. XX ) B ( Research Volume Frontier Science of Journal Global ©2020 Global Journals.

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