Add to ORKGThis review summarizes the most important advances made in studying mechanochemical activation of latent catalysts ( mechanocatalysis ) over the past few years. First, a historic overview of the development of polymer mechanochemistry is given, followed by a detailed discussion on the physical aspects involved in the response of these polymer mechanocatalysts to external forces (i.e., unfolding and stretching of the polymer chains, followed by chain scission) and on the stability and activity of the resulting active (mechano)catalyst species. The results that were obtained are summarized and put in context. It is shown how the more detailed insights that were obtained from the mechanisms and processes underlying mechanochemical catalyst act...
The rapidly emerging field of polymer mechanochem. creates new opportunities to understand and explo...
Harnessing mechanical forces to activate latent catalysts has emerged as a novel approach to control...
When bringing "mechanical force" and "polymer" into conversation, one might naturally relate to ever...
This review summarizes the most important advances made in studying mechanochemical activation of la...
Mechanochemistry refers to chemical reactions that are induced by the direct absorption of mechanica...
Polymer mechanochemistry is an exciting, rapidly developing field; however, it lacks detailed studie...
development of future ‘smart’ materials and devices. Here we present the development of a novel seco...
The burgeoning field of polymer mechanochemistry has garnered significant interest in recent years. ...
<p>The coupling of mechanical stress fields in polymers to covalent chemistry (polymer mechanochemis...
Homogeneously catalysed reactions can be ‘switched on’ by activating latent catalysts. Usually, acti...
Mechanochemistry provides a unique approach to investigate macroscopic deformation, failure and heal...
Thesis (Ph.D.)--University of Washington, 2015The translation of mechanical force to specific chemic...
The past 10 years have seen a resurgence of interest in the field of polymer mechanochemistry. Whils...
The rapidly emerging field of polymer mechanochem. creates new opportunities to understand and explo...
Harnessing mechanical forces to activate latent catalysts has emerged as a novel approach to control...
When bringing "mechanical force" and "polymer" into conversation, one might naturally relate to ever...
This review summarizes the most important advances made in studying mechanochemical activation of la...
Mechanochemistry refers to chemical reactions that are induced by the direct absorption of mechanica...
Polymer mechanochemistry is an exciting, rapidly developing field; however, it lacks detailed studie...
development of future ‘smart’ materials and devices. Here we present the development of a novel seco...
The burgeoning field of polymer mechanochemistry has garnered significant interest in recent years. ...
<p>The coupling of mechanical stress fields in polymers to covalent chemistry (polymer mechanochemis...
Homogeneously catalysed reactions can be ‘switched on’ by activating latent catalysts. Usually, acti...
Mechanochemistry provides a unique approach to investigate macroscopic deformation, failure and heal...
Thesis (Ph.D.)--University of Washington, 2015The translation of mechanical force to specific chemic...
The past 10 years have seen a resurgence of interest in the field of polymer mechanochemistry. Whils...
The rapidly emerging field of polymer mechanochem. creates new opportunities to understand and explo...
Harnessing mechanical forces to activate latent catalysts has emerged as a novel approach to control...
When bringing "mechanical force" and "polymer" into conversation, one might naturally relate to ever...