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Breaking Strong Alkynyl-Phenyl Bonds: Poly(<i>para</i>-phenylene ethynylene)s under Mechanical Stress.


ABSTRACT: Stronger chemical bonds withstand higher mechanical forces; thus, the rupture of single bonds is preferred over the rupture of double or triple bonds or aromatic rings. We investigated bond scission in poly(dialkyl-p-phenylene ethynylene)s (PPEs), a fully conjugated polymer. In a scale-bridging approach using electron-paramagnetic resonance spectroscopy and gel permeation chromatography of cryomilled samples, in combination with density functional theory calculations and coarse-grained simulations, we conclude that mechanical force cleaves the sp-sp2 bond of PPEs (bond dissociation energy as high as 600 kJ mol-1). Bond scission primarily occurs in shear bands with locally increased shear stresses. The scission occurs in the middle of the PPE chains. Breaking sp-sp2 bonds into free radicals thus is feasible but requires significant mechanical force and an efficient stress concentration.

SUBMITTER: Elter M 

PROVIDER: S-EPMC11468784 | biostudies-literature | 2024 Oct

REPOSITORIES: biostudies-literature

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Breaking Strong Alkynyl-Phenyl Bonds: Poly(<i>para</i>-phenylene ethynylene)s under Mechanical Stress.

Elter Maximilian M   Brosz Matthias M   Sucerquia Daniel D   Kuzhelev Andrei A   Kiesewetter Denis C DC   Kurth Markus M   Dreuw Andreas A   Prisner Thomas F TF   Freudenberg Jan J   Bunz Uwe H F UHF   Gräter Frauke F  

Journal of the American Chemical Society 20240927 40


Stronger chemical bonds withstand higher mechanical forces; thus, the rupture of single bonds is preferred over the rupture of double or triple bonds or aromatic rings. We investigated bond scission in poly(dialkyl-<i>p</i>-phenylene ethynylene)s (PPEs), a fully conjugated polymer. In a scale-bridging approach using electron-paramagnetic resonance spectroscopy and gel permeation chromatography of cryomilled samples, in combination with density functional theory calculations and coarse-grained si  ...[more]

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