Technological advancement demands new types of transducer materials that can efficiently sense and convert force and energy form one type to another for signal processing and modulation, switching and actuation, sensing and energy harvesting. It is also desirable to have transducer materials that mimic cylindrical outer hair cells and retinal cells and able to detect and convert signals instantly and reliably with exceptionally high coupling efficiency at reduced size. Nanocomposite materials could provide the necessary advantages, but are difficulty to be synthesized with controlled morphology and interface characteristics. The rod-coil copolymer systems have attracted widespread interest in both fundamental understanding of the thermodynamics that control nanoscale self-assembly in polymers, as well as technological implication associated with the unique characteristics of the novel designed systems. With inception of the responsive polymer system designed by the inventors, for the first time, there are opportunities to design materials without the compromises typically found in conventional composites. The rationally synthesized nanomaterials can be processed in a thin film format, which provides a platform for technology innovation.
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