The adverse environmental impacts of plastic bags, including production energy costs, limited lifespan, increasing landfill content and inability to biodegrade, provide symbolic and practical evidence of a ‘throwaway’ consumer culture which acts as a significant barrier to sustainable consumption in particular and sustainable development in general. Decoupling consumer behaviour from plastic bag use is therefore an important challenge in the pursuit of sustainable consumption as a precursor to achieving sustainable development. This article provides a critical evaluation of that challenge, set within the theoretical framework of sustainable development. It examines the adverse environmental impacts of plastic bag use and evaluates initiatives by governments and businesses internationally to change consumer behaviour regarding the use of plastic bags in line with sustainable development principles. The politics of this agenda are analysed using a combination of consumer policy and public policy perspectives. Finally, the article draws conclusions regarding the earlier analysis.
Titanium(IV) benzylidenes bearing a masked oxygen or nitrogen nucleophile in the ortho position were generated from thioacetals, using low-valent titanocene complex, Cp2Ti[P(OEt)3]2. Methylene acetal, alkyl ether, silyl ether, fluoro, tertiary amino, and N-alkyl, N-benzyl, N-prenyl, and N-silyl tert-butyl carbamate groups were tolerated in the titanium alkylidene reagents (Schrock carbenes). Aryl-chlorine bonds were stable to the titanium benzylidene functionality, but there was poor chemoselectivity for the reduction of the thioacetal in the presence of an aryl chloride. The titanium benzylidenes converted Merrifield and Wang resin-bound esters into enol ethers. The oxygen nucleophile was masked as a TMS ether, and when the resin-bound enol ethers bearing this ortho substituent were treated with 1% TFA in dichloromethane, benzofurans were released from resin in high yields. The chameleon catch strategy ensured excellent purity. In a similar way, N-alkylated and N-silylated tert-butyl carbamates were used for the synthesis of N-alkyl and N-Boc indoles, respectively. These traceless solid-phase syntheses of heterocycles are believed to involve postcleavage modification rather than cyclative termination.
[reaction: see text] Titanium(IV) benzylidenes bearing a masked nitrogen nucleophile in the ortho position converted Merrifield resin-bound esters into enol ethers. An unusual nitrogen protecting group, N-silylated tert-butyl carbamate, was employed. One percent TFA released N-Boc indoles in high yield and purity. N-Methyl indoles were also prepared. Cyclative termination was not required to release the chameleon catch. The first example of a carbonyl group within a titanium alkylidene reagent is reported.
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