Add to ORKGWe recently reported a synthetic strategy to control the architecture of graft polymers spanning the linear to bottlebrush regimes via ring-opening metathesis copolymn. We have expanded our strategy to access graft polymers with rich and diverse variations in architecture. Monomer feed ratios can be tuned to control the grafting d., while monomer reactivity ratios can be tuned to control the distribution of grafts. The consequences of systematic architectural modifications are discussed in the context of polymer properties and self-assembly
Control over polymer sequence and architecture is crucial to both understanding structure–property r...
Manipulation of self-assembly behavior of copolymers via environmental change is attractive in the f...
We have been investigating the controlled growth of polymer brushes from pre-patterned surfaces1. A ...
We recently reported a synthetic strategy to control the architecture of graft polymers spanning the...
New approaches have been developed to enable facile control of grafting d., side-chain length, and t...
We have developed a new copolymn. technique that enables control over grafting densities as well as ...
Grafting density and graft distribution impact the chain dimensions and physical properties of polym...
Significant progress has been made in the field of living/controlled polymerizations over the past d...
The effect of graft molecular architecture on the formation of self-assembling morphologies of stron...
Nanostructured amphiphilic block copolymers, graft copolymers, polymeric thermally responsive molecu...
We report the polymerisation-induced self-assembly of poly(lauryl methacrylate)-graft-poly(benzyl me...
A versatile synthetic methodology is presented for the preparation of graft copolymers with mixed gr...
The natural building blocks of linear polymer are monomers. Similarly, the natural building blocks o...
Synthetic and degradable polymers are an attractive choicein many areas, since it is possible to con...
Asymmetric miktoarm star polymers, comprising a single A arm coupled to a multitude of B or AB′ arms...
Control over polymer sequence and architecture is crucial to both understanding structure–property r...
Manipulation of self-assembly behavior of copolymers via environmental change is attractive in the f...
We have been investigating the controlled growth of polymer brushes from pre-patterned surfaces1. A ...
We recently reported a synthetic strategy to control the architecture of graft polymers spanning the...
New approaches have been developed to enable facile control of grafting d., side-chain length, and t...
We have developed a new copolymn. technique that enables control over grafting densities as well as ...
Grafting density and graft distribution impact the chain dimensions and physical properties of polym...
Significant progress has been made in the field of living/controlled polymerizations over the past d...
The effect of graft molecular architecture on the formation of self-assembling morphologies of stron...
Nanostructured amphiphilic block copolymers, graft copolymers, polymeric thermally responsive molecu...
We report the polymerisation-induced self-assembly of poly(lauryl methacrylate)-graft-poly(benzyl me...
A versatile synthetic methodology is presented for the preparation of graft copolymers with mixed gr...
The natural building blocks of linear polymer are monomers. Similarly, the natural building blocks o...
Synthetic and degradable polymers are an attractive choicein many areas, since it is possible to con...
Asymmetric miktoarm star polymers, comprising a single A arm coupled to a multitude of B or AB′ arms...
Control over polymer sequence and architecture is crucial to both understanding structure–property r...
Manipulation of self-assembly behavior of copolymers via environmental change is attractive in the f...
We have been investigating the controlled growth of polymer brushes from pre-patterned surfaces1. A ...