- Method for preparing benzyl iodide and derivatives thereof
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The invention discloses a method for efficiently preparing benzyl iodide and derivatives thereof. The preparation method is characterized in that a benzyl alcohol compound, iodine and hydrogen are used as the reaction raw materials and rhodium and phosphine ligand are used as the catalyst to perform one-step reaction in an organic solvent under a positive pressure condition to synthesize the target benzyl iodide and the derivatives thereof, and the reaction formula of the reaction is as shown in the specification. The method has the advantages that the iodination of the method can be easily achieved, reaction condition requirements are low, large-scale industrial production can be achieved, the yield of the benzyl iodide can reach 82% or above, and the yield of the derivatives of the benzyl iodide can reach 99% or above; the method is wide in application range, short in process flow, low in raw material cost and applicable to the industrial production of a series of benzyl iodide and the derivatives thereof.
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Paragraph 0035-0037
(2020/06/24)
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- Preparation method of benzyl iodide and derivatives thereof
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The invention discloses a preparation method of benzyl iodide and derivatives thereof. The preparation method comprises the following steps: under the reduction action of sodium borohydride, a benzylalcohol compound shown as a formula I reacts with elemental iodine to obtain benzyl iodide shown as a formula II and derivatives thereof; in the formula I and the formula II, R represents one or moresubstituents on a benzene ring and is selected from at least one of aryl, substituted or unsubstituted alkyl, halogen and nitro. The preparation method of benzyl iodide and derivatives thereof is scientific and reasonable, sodium borohydride which is mild in reactivity, low in price and easily available is used as a reducing agent, and elemental iodine is convenient and easily available; in addition, the preparation method has the characteristics of simplicity and convenience in operation, high synthesis yield, easiness in product purification, environmental friendliness and the like.
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Paragraph 0040-0044
(2020/06/09)
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- Rhodium-Catalyzed Generation of Anhydrous Hydrogen Iodide: An Effective Method for the Preparation of Iodoalkanes
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The preparation of anhydrous hydrogen iodide directly from molecular hydrogen and iodine using a rhodium catalyst is reported for the first time. The anhydrous hydrogen iodide generated was proven to be highly active in the transformations of alkenes, phenyl aldehydes, alcohols, and cyclic ethers to the corresponding iodoalkanes. Therefore, the present methodology not only has provided convenient access to anhydrous hydrogen iodide but also offers a practical preparation method for various iodoalkanes in excellent atom economy.
- Zeng, Chaoyuan,Shen, Guoli,Yang, Fan,Chen, Jingchao,Zhang, Xuexin,Gu, Cuiping,Zhou, Yongyun,Fan, Baomin
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supporting information
p. 6859 - 6862
(2018/10/25)
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- N-Hydroxyphthalimide-Mediated Electrochemical Iodination of Methylarenes and Comparison to Electron-Transfer-Initiated C-H Functionalization
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An electrochemical method has been developed for selective benzylic iodination of methylarenes. The reactions feature the first use of N-hydroxyphthalimide as an electrochemical mediator for C-H oxidation to nonoxygenated products. The method provides the basis for direct (in situ) or sequential benzylation of diverse nucleophiles using methylarenes as the alkylating agent. The hydrogen-atom transfer mechanism for C-H iodination allows C-H oxidation to proceed with minimal dependence on the substrate electronic properties and at electrode potentials 0.5-1.2 V lower than that of direct electrochemical C-H oxidation.
- Rafiee, Mohammad,Wang, Fei,Hruszkewycz, Damian P.,Stahl, Shannon S.
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supporting information
p. 22 - 25
(2018/01/17)
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- Electron paramagnetic resonance spectroscopic characterization of α,2-and α,4-didehydrotoluene
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The elusive diradicals α,2-and α,4-didehydrotoluene 1 and 3, have been generated by photolysis of matrix-isolated 2-iodobenzyl iodide 7 and 4-iodobenzyl iodide 8, respectively. Diradical 3 could also be synthesized by flash vacuum thermolysis of 8, with s
- Neuhaus, Patrik,Henkel, Stefan,Sander, Wolfram
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experimental part
p. 1634 - 1637
(2011/09/15)
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- Regioselective monoalkylation of calixarenes. Synthesis of homodimer calixarenes
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The selective monoalkylation at the smaller (lower) rim of the p-tert- butylcalix[4]- and -[6]arenes using bis(butyltin)oxide and different alkylating agents is described. The procedure is remarkable for the mild conditions used allowing an efficiently access to monoalkylated calixarene derivatives in moderate to good yields. Monoalkynylcalix[4]arene and monoalkynylcalix[6]arene have been synthetically exploited for the synthesis of bis-calix[n]arenes (n = 4, 6) with a diyne bridge by oxidative coupling of alkynes. In addition, intermolecular methathesis of the obtained monoalkenylcalix[4]arene allowed the preparation of bis-calix[4]arene that are single bridged at the smaller (lower) rim with a 2-butenyl moiety.
- Santoyo-Gonzalez, Francisco,Torres-Pinedo, Antonio,Sanchez-Ortega, Adolfo
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p. 4409 - 4414
(2007/10/03)
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