Triblock Terpolymers Bearing a Redox-Cleavable Junction and a Photo-Cross-Linkable Block

End-functionalized polymers by controlled/living radical polymerizations: synthesis and applications

This review focuses on end-functionalized polymers synthesized by controlled/living radical polymerizations and the applications in fields including bioconjugate formation, surface modification, topology construction, and self-assembly.

Peptide-mediated cationic micelles drug-delivery system applied on a VEGFR3-overexpressed tumor

Copolymers as a kind of drug delivery carrier always lack targeting efficiency.

Photocleavable amphiphilic diblock copolymer with an azobenzene linkage

Diblock copolymer with an azobenzene linkage can be efficiently photocleaved upon UV light irradiation. Thus, the colloidal aggregates of this kind of amphiphilic diblock copolymer will be disrupted due to the cleavage of the azobenzene junction.

Water-based, heat-assisted preparation of water-repellent cotton fabrics using graft copolymers

A simple, practical, environmentally-friendly method to prepare repellent coated cotton fabrics.

Synthesis of poly(dimethylsiloxane)-block-poly[3-(triisopropyloxysilyl) propyl methacrylate] and its use in the facile coating of hydrophilically patterned superhydrophobic fabrics

We report the synthesis and applications of a novel poly(dimethylsiloxane-block-poly[3-(triisopropyloxysilyl)propyl methacrylate]) (PDMS-b-PIPSMA) diblock copolymer.

Clear antismudge unimolecular coatings of diblock copolymers on glass plates

Two poly[3-(triisopropyloxysilyl)propyl methacrylate]-block-poly[2-(perfluorooctyl)ethyl methacrylate] (PIPSMA-b-PFOEMA) samples and one poly(perfluoropropylene oxide)-block-poly-[3-(triisopropyloxysilyl)propyl methacrylate] (PFPO-b-PIPSMA) sample were synthesized, characterized, and used to coat glass plates. These coatings were formed by evaporating a dilute polymer solution containing HCl, which catalyzed PIPSMA's sol-gel chemistry. Polymer usage was minimized by targeting at diblock copolymer unimolecular (brush) layers that consisted of a sol-gelled grafted PIPSMA layer and an oil- and water-repellant fluorinated surface layer. Investigated is the effect of varying the catalyst amount, polymer amount, as well as block copolymer type and composition on the structure, morphology, and oil- and water-repellency of the coatings. Under optimized conditions, the prepared coatings were optically clear and resistant to writing by a permanent marker. The marker's trace was the faintest on PFPO-b-PIPSMA coatings. In addition, the PFPO-b-PIPSMA coatings were far more wear-resistant than the PIPSMA-b-PFOEMA coatings.