Tor Kit Goh scite author profile

In this study, the stereocomplexation between a novel stereospecific cyclic vinyl polymer, that is, cyclic syndiotactic poly(methyl methacrylate) (st-PMMA), with the complementary linear isotactic (it-) PMMA was investigated. Surprising new insight into the effects of the topology (i.e., end groups), size, and tacticity of the assembling components on stereocomplex formation was obtained. Characterization of the stereocomplexes revealed that the self-assembly of cyclic st-PMMAs and linear it-PMMAs resulted in the formation of an unprecedented “polypseudorotaxane-type” supramolecular assembly. This stereocomplex exhibited remarkably different physical properties as compared to the conventional PMMA triple-helix stereocomplex as a result of the restricted topology imposed by the cyclic st-PMMA assembling component.

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Bromoisobutyramide as an Intermolecular Surface Binder for the Preparation of Free‐standing Biopolymer Assemblies

Mertz

Tan

Wang

et al. 2011

Advanced Materials

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Rheology of core cross-linked star polymers

Goh

Coventry

Blencowe

et al. 2008

Polymer

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Factors influencing the growth and topography of nanoscale films fabricated by ROMP-mediated continuous assembly of polymers

et al. 2013

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(Super)hydrophobic and Multilayered Amphiphilic Films Prepared by Continuous Assembly of Polymers

Guntari

Khin

Wong

et al. 2013

Adv Funct Materials

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The continuous assembly of polymers (CAP) is used to fabricate tailored nanocoatings on a wide variety of substrates. Ring‐opening metathesis polymerization (ROMP) is used to mediate the CAP process (CAPROMP) to assemble specifically designed macromolecules into nanoengineered crosslinked films. Different films composed of single or multiple macromolecules are used to tune the surface wetting characteristics on various planar substrates, including porous substrates such as filter paper and cotton, and non‐porous subtrates such as aluminium foil and glass. By judicious selection of the macromolecules, these substrates, which are hydrophilic in nature, can be rendered (super)hydrophobic. The robustness of the ROMP catalysts and the reinitiation ability of the CAPROMP approach allow the production of layered multicomponent amphiphilic films with on‐demand switchable wettability. Such functional nanocoatings can be potentially applied as self‐cleaning surfaces, as waterproof woven fabrics, and for the next generation of microelectronic devices.

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Tor Kit Goh

Core cross-linked star polymers via controlled radical polymerisation

Nanoengineered Films via Surface‐Confined Continuous Assembly of Polymers

ATRP-mediated continuous assembly of polymers for the preparation of nanoscale films

Stereospecific Cyclic Poly(methyl methacrylate) and Its Topology‐Guided Hierarchically Controlled Supramolecular Assemblies

Bromoisobutyramide as an Intermolecular Surface Binder for the Preparation of Free‐standing Biopolymer Assemblies

Rheology of core cross-linked star polymers

Factors influencing the growth and topography of nanoscale films fabricated by ROMP-mediated continuous assembly of polymers

(Super)hydrophobic and Multilayered Amphiphilic Films Prepared by Continuous Assembly of Polymers

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