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Free, publicly-accessible full text available February 13, 2025
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Free, publicly-accessible full text available March 6, 2025
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Presented is the synthesis of cyclic polyacetylenes from alkynes and a study probing the functional group tolerance of catalyst 1. The synthesized polymers were characterized by employing GPC, NMR, and IR spectroscopy. The cyclic polyacetylenes spontaneously degrade, leading to the formation of lower molecular weight linear analogues. The degradation rate varied significantly based on the monomer substituents. These discoveries collectively reveal the functional group limits of catalyst 1 and the subsequent stability of the synthesized polymers, thus opening new avenues for advanced polymer design and applications.more » « less
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Free, publicly-accessible full text available February 1, 2025
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Not, available (Ed.)
Abstract Described here is a direct entry to two examples of 3d transition metal catalysts that are active for the cyclic polymerization of phenylacetylene, namely, [(BDI)M{κ2‐
C ,C ‐(Me3SiC3SiMe3)}] (2‐M ) (BDI=[ArNC(CH3)]2CH−, Ar=2,6‐i Pr2C6H3;M =Ti, V ). Catalysts are prepared in one step by the treatment of [(BDI)MCl2] (1‐M ,M =Ti ,V ) with 1,3‐dilithioallene [Li2(Me3SiC3SiMe3)]. Complexes2‐M have been spectroscopically and structurally characterized and the polymers that are catalytically formed from phenylacetylene were verified to have a cyclic topology based on a combination of size‐exclusion chromatography (SEC) and intrinsic viscosity studies. Two‐electron oxidation of2‐V with nitrous oxide (N2O) cleanly yields a [VV] alkylidene‐alkynyl oxo complex [(BDI)V(=O){κ1‐C ‐(=C(SiMe3)CC(SiMe3))}] (3 ), which lends support for how this scaffold in2‐M might be operating in the polymerization of the terminal alkyne. This work demonstrates how alkylidynes can be circumvented using 1,3‐dianionic allene as a segue into M−C multiple bonds.Free, publicly-accessible full text available February 19, 2025 -
Free, publicly-accessible full text available February 7, 2025