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Synthetic Communications
An International Journal for Rapid Communication of Synthetic Organic Chemistry
Volume 36, 2006 - Issue 2
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Original Articles

Triphenylphosphine–Iodine: An Efficient Reagent System for the Synthesis of Nitriles From Aldoximes

A. Venkat Narsaiah Division of Organic Chemistry, Fine Chemicals Laboratory, Indian Institute of Chemical Technology, Hyderabad, India
,
D. Sreenu Division of Organic Chemistry, Fine Chemicals Laboratory, Indian Institute of Chemical Technology, Hyderabad, India
&
K. Nagaiah Division of Organic Chemistry, Fine Chemicals Laboratory, Indian Institute of Chemical Technology, Hyderabad, IndiaCorrespondence[email protected]
Pages 137-140 | Received 14 Jul 2005, Published online: 15 Aug 2006

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Ji Eun Choi, Suguru Shinoda, Risa Inoue, Daijun Zheng, Harald Gröger & Yasuhisa Asano. (2019) Cyanide-free synthesis of an aromatic nitrile from a biorenewable-based aldoxime: Development and application of a recombinant aldoxime dehydratase as a biocatalyst. Biocatalysis and Biotransformation 37:6, pages 414-420.
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SamuelT. Chill & RobertC. Mebane. (2009) A Facile One-Pot Conversion of Aldehydes into Nitriles. Synthetic Communications 39:20, pages 3601-3606.
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Articles from other publishers (23)

Arvind K. Yadav, Srikanth Reddy Narra, Muhamad Zulfaqar Bacho, Yuji Sumii & Norio Shibata. (2023) Fluorinated Vilsmeier Reagent: TFEDMA‐mediated Synthesis of Aryl‐cyanides and Aryl‐amides via the Activation of Oximes†. Asian Journal of Organic Chemistry 12:6.
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Shekharappa, L. Roopesh Kumar, C. Srinivasulu & Vommina V. Sureshbabu. (2020) Dehydration of Chiral α-Amides to Chiral α-Nitriles Under the Appel Reaction Conditions. International Journal of Peptide Research and Therapeutics 27:1, pages 497-502.
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N. Uludag. (2020) An Efficient Synthesis of Nitriles from Aldoximes in the Presence of Trifluoromethanesulfonic Anhydride in Mild Conditions. Russian Journal of Organic Chemistry 56:9, pages 1640-1645.
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O. Stelzer. 2019. Catalysis from A to Z. Catalysis from A to Z.
Ji Eun Choi, Suguru Shinoda, Yasuhisa Asano & Harald Gröger. (2020) Aldoxime Dehydratase Mutants as Improved Biocatalysts for a Sustainable Synthesis of Biorenewables-Based 2-Furonitrile. Catalysts 10:4, pages 362.
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Guobing Yan, Yan Zhang & Jianbo Wang. (2017) Recent Advances in the Synthesis of Aryl Nitrile Compounds. Advanced Synthesis & Catalysis 359:23, pages 4068-4105.
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Richard C. LarockRichard C. Larock & Tuanli Yao. 2018. Comprehensive Organic Transformations. Comprehensive Organic Transformations 1 85 .
Zhao-Hua Yan, Huan Tian, Dong-Dong Zhao, Hong-Ai Jin & Wei-Sheng Tian. (2016) Perfluoroalkanosulfonyl fluoride: A useful reagent for dehydration of aldoximes to nitriles. Chinese Chemical Letters 27:1, pages 96-98.
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Monireh Zarghani & Batool Akhlaghinia. (2015) Copper immobilized on aminated ferrite nanoparticles by 2-aminoethyl dihydrogen phosphate (Fe 3 O 4 @AEPH 2 -Cu II ) catalyses the conversion of aldoximes to nitriles . Applied Organometallic Chemistry 29:10, pages 683-689.
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Arvind K. Yadav, Vishnu P. Srivastava & Lal Dhar S. Yadav. (2014) Visible-light-mediated efficient conversion of aldoximes and primary amides into nitriles. RSC Adv. 4:8, pages 4181-4186.
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Yaoping Song, Dongguo Shen, Qinghua Zhang, Bo Chen & Guangyu Xu. (2014) Ac2O/K2CO3/DMSO: an efficient and practical reagent system for the synthesis of nitriles from aldoximes. Tetrahedron Letters 55:3, pages 639-641.
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Shunyou Cai, Shaolong Zhang, Yaohong Zhao & David Zhigang Wang. (2013) New Approach to Oximes through Reduction of Nitro Compounds Enabled by Visible Light Photoredox Catalysis. Organic Letters 15:11, pages 2660-2663.
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Xiao-Yun Ma, Ying He, Ting-Ting Lu & Ming Lu. (2013) Conversion of aldoximes into nitriles catalyzed by simple transition metal salt of the fourth period in acetonitrile. Tetrahedron 69:12, pages 2560-2564.
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LALTHAZUALA ROKHUM & GHANASHYAM BEZ. (2012) A practical one-pot synthesis of azides directly from alcohols. Journal of Chemical Sciences 124:3, pages 687-691.
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Ross M. Denton, Jie An, Petra Lindovska & William Lewis. (2012) Phosphonium salt-catalysed synthesis of nitriles from in situ activated oximes. Tetrahedron 68:13, pages 2899-2905.
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Qun-Li Luo, Lina Lv, Yu Li, Jian-Ping Tan, Wenhui Nan & Qun Hui. (2011) An Efficient Protocol for the Amidation of Carboxylic Acids Promoted by Trimethyl Phosphite and Iodine. European Journal of Organic Chemistry 2011:34, pages 6916-6922.
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Abolghasem Davoodnia, Amir Khojastehnezhad, Mehdi Bakavoli & Niloofar Tavakoli‐Hoseini. (2011) SO 3 H‐Functionalized Ionic Liquids:Green, Efficient and Reusable Catalysts for the Facile Dehydration of Aldoximes into Nitriles . Chinese Journal of Chemistry 29:5, pages 978-982.
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Marjan Jereb, Dejan Vražič & Marko Zupan. (2011) Iodine-catalyzed transformation of molecules containing oxygen functional groups. Tetrahedron 67:7, pages 1355-1387.
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Amit Kumar, Hari Kiran Akula & Mahesh K. Lakshman. (2010) Simple Synthesis of Amides and Weinreb Amides Using PPh3 or Polymer-Supported PPh3 and Iodine. European Journal of Organic Chemistry 2010:14, pages 2709-2715.
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Jean-Robert Dormoy, Bertrand Castro & Matthew L. Crawley. 2001. Encyclopedia of Reagents for Organic Synthesis. Encyclopedia of Reagents for Organic Synthesis.
Lal Dhar S. Yadav, Vishnu P. Srivastava & Rajesh Patel. (2009) Bromodimethylsulfonium bromide (BDMS): a useful reagent for conversion of aldoximes and primary amides to nitriles. Tetrahedron Letters 50:39, pages 5532-5535.
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Manish K. Singh & Mahesh K. Lakshman. (2009) A Simple Synthesis of Nitriles from Aldoximes. The Journal of Organic Chemistry 74:8, pages 3079-3084.
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A. Venkat Narsaiah, D. Sreenu & K. Nagaiah. (2006) Triphenylphosphine—Iodine: An Efficient Reagent System for the Synthesis of Nitriles from Aldoximes.. ChemInform 37:21.
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