This book introduces readers to interfacial reactions in confinement on stimuli-responsive homopolymer and diblock copolymer films. It also includes investigations concerning the immobilization of (bio)molecules and the fabrication of biomolecular patterns by reactive microcontact printing on these reactive polymer films. In turn, the book takes advantage of the microphase separation of diblock copolymer films to study the fabrication of nanopatterns, which could contribute to the future development of a model system that allows us to area-selectively deposit and address (bio)molecules. Given its scope, the book broadens readers’ perspective on the microfabrication of stimuli-responsive polymers.
This book introduces readers to interfacial reactions in confinement on stimuli-responsive homopolymer and diblock copolymer films. It also includes investigations concerning the immobilization of (bio)molecules and the fabrication of biomolecular patterns by reactive microcontact printing on these reactive polymer films. In turn, the book takes advantage of the microphase separation of diblock copolymer films to study the fabrication of nanopatterns, which could contribute to the future development of a model system that allows us to area-selectively deposit and address (bio)molecules. Given its scope, the book broadens readers’ perspective on the microfabrication of stimuli-responsive polymers.
Provides comprehensive descriptions of multi-responsive polymers Describes the polymers currently used for microfabrication and highlights their practicality and utility in day-to-day practice Discusses the potential use of microfabrication of polymer materials for biosensors
Chuanliang Feng
Confinement reaction Microcontact printing Reactive susrface Phase separation Deprotection reaction