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      Acyclic Triene Metathesis Oligo- and Polymerization of High Oleic Sun Flower Oil

      , ,
      Macromolecular Chemistry and Physics
      Wiley

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          Plant oil renewable resources as green alternatives in polymer science

          The utilization of plant oil renewable resources as raw materials for monomers and polymers is discussed and reviewed. In an age of increasing oil prices, global warming and other environmental problems (e.g. waste) the change from fossil feedstock to renewable resources can considerably contribute to a sustainable development in the future. Especially plant derived fats and oils bear a large potential for the substitution of currently used petrochemicals, since monomers, fine chemicals and polymers can be derived from these resources in a straightforward fashion. The synthesis of monomers as well as polymers from plant fats and oils has already found some industrial application and recent developments in this field offer promising new opportunities, as is shown within this contribution. (138 references.)
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            A general model for selectivity in olefin cross metathesis.

            In recent years, olefin cross metathesis (CM) has emerged as a powerful and convenient synthetic technique in organic chemistry; however, as a general synthetic method, CM has been limited by the lack of predictability in product selectivity and stereoselectivity. Investigations into olefin cross metathesis with several classes of olefins, including substituted and functionalized styrenes, secondary allylic alcohols, tertiary allylic alcohols, and olefins with alpha-quaternary centers, have led to a general model useful for the prediction of product selectivity and stereoselectivity in cross metathesis. As a general ranking of olefin reactivity in CM, olefins can be categorized by their relative abilities to undergo homodimerization via cross metathesis and the susceptibility of their homodimers toward secondary metathesis reactions. When an olefin of high reactivity is reacted with an olefin of lower reactivity (sterically bulky, electron-deficient, etc.), selective cross metathesis can be achieved using feedstock stoichiometries as low as 1:1. By employing a metathesis catalyst with the appropriate activity, selective cross metathesis reactions can be achieved with a wide variety of electron-rich, electron-deficient, and sterically bulky olefins. Application of this model has allowed for the prediction and development of selective cross metathesis reactions, culminating in unprecedented three-component intermolecular cross metathesis reactions.
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              Synthesis and Applications of RuCl2(CHR‘)(PR3)2:  The Influence of the Alkylidene Moiety on Metathesis Activity

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                Author and article information

                Journal
                Macromolecular Chemistry and Physics
                Macromol. Chem. Phys.
                Wiley
                10221352
                April 15 2010
                April 15 2010
                : 211
                : 8
                : 854-862
                Article
                10.1002/macp.200900615
                965c566e-3100-4acf-8b08-7525716aa036
                © 2010

                http://doi.wiley.com/10.1002/tdm_license_1.1

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