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      Water-controlled selective preparation of α-mono or α,α′-dihalo ketones via catalytic cascade reaction of unactivated alkynes with 1,3-dihalo-5,5-dimethylhydantoin

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          Abstract

          An efficient protocol for the selective synthesis of α-mono or α,α′-dihalo ketones via a water-controlled chemodivergent and regiospecific cascade reaction has been developed.

          Abstract

          The control of a reaction that can produce multiple products from the same starting material is a highly attractive and challenging concept in organic synthesis. An efficient protocol for the selective synthesis of α-mono or α,α′-dihalo ketones via a water-controlled three-component thiourea-catalyzed cascade reaction of unactivated alkynes, 1,3-dihalo-5,5-dimethylhydantoin and water has been developed. α-Monohaloketones were obtained in aqueous acetone at 45 °C; conversely, α,α′-dihalo ketones were formed with pure water as the sole solvent at room temperature.

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          A survey of Hammett substituent constants and resonance and field parameters

          Corwin Hansch, A Leo, R W Taft (1991)
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            Green chemistry: principles and practice.

            Paul T. Anastas, Nicolas Eghbali (2010)
            Green Chemistry is a relatively new emerging field that strives to work at the molecular level to achieve sustainability. The field has received widespread interest in the past decade due to its ability to harness chemical innovation to meet environmental and economic goals simultaneously. Green Chemistry has a framework of a cohesive set of Twelve Principles, which have been systematically surveyed in this critical review. This article covers the concepts of design and the scientific philosophy of Green Chemistry with a set of illustrative examples. Future trends in Green Chemistry are discussed with the challenge of using the Principles as a cohesive design system (93 references).
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              Cascade reactions in total synthesis.

              K Nicolaou, David J. Edmonds, Paul G Bulger (2006)
              The design and implementation of cascade reactions is a challenging facet of organic chemistry, yet one that can impart striking novelty, elegance, and efficiency to synthetic strategies. The application of cascade reactions to natural products synthesis represents a particularly demanding task, but the results can be both stunning and instructive. This Review highlights selected examples of cascade reactions in total synthesis, with particular emphasis on recent applications therein. The examples discussed herein illustrate the power of these processes in the construction of complex molecules and underscore their future potential in chemical synthesis.
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                Author and article information

                Contributors
                Journal
                Journal ID (publisher-id): GRCHFJ
                Title: Green Chemistry
                Abbreviated Title: Green Chem.
                Publisher: Royal Society of Chemistry (RSC)
                ISSN (Print): 1463-9262
                ISSN (Electronic): 1463-9270
                Publication date Created: 2017
                Publication date (Electronic): 2017
                Volume: 19
                Issue: 8
                Pages: 1983-1989
                Affiliations
                [1 ]Key Laboratory of Comprehensive Utilization of Advantage Plants Resources in Hunan South
                [2 ]College of Chemistry and Bioengineering
                [3 ]Hunan University of Science and Engineering
                [4 ]Yongzhou 425100
                [5 ]China
                Article
                DOI: 10.1039/C7GC00283A
                SO-VID: 6d3b18fc-538d-4868-ada5-080159f5d077
                Copyright © © 2017
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