Next >

Switchable Bioelectronics

Switchable Biointerfaces Physically Stimulated Systems Light-Switchable Interfaces Temperature-Switchable Interfaces Electrically Switchable Interfaces Magnetoswitchable Interfaces Chemically Stimulated Systems Programmable Bioelectronics Enzyme-Based Logic Systems for Biocomputing Programmable Enzyme–Based Biocatalytic Systems Conclusion and Future Outlook Stimuli-Responsive Systems and Applications Introduction Thermoresponsive Materials Systems That Are pH Responsive Photoresponsive Systems Photoisomerization Azobenzene-based systems Spiropyran-based systems Photodimerization Anthracene derivatives Coumarin derivatives Cinnamoyl derivatives Photocleavage Photocages Self-assembly Stimuli-Responsive Polymers with Tunable Release Kinetics Introduction Stimuli-Responsive Polymers Temperature-Responsive Polymers Polymers That Are pH Responsive Electroactive Polymers Light-Responsive Polymers Summary Conformational Switching in Nanofibers: A New Bioelectronic Interface for Gas Sensors Introduction Conformational Change and Energy-Related Shape Resistance of a Single Chain Theory M-FJC and WLC Models Force Spectroscopy Applications Single-Chain Elongation Chain Elasticity, Shape Resistance, and Switchability Characteristic Behavior of Polysaccharides Effect of Small-Molecule Polymer Interaction on Switchability Polymer-Solvent Interaction Switchable Nanofiber Sensing Platform Molecularly Imprinted Polymers as Recognition and Signaling Elements in Sensors Introduction Applications of the Molecular Imprinting Technique as a Sensor MIP-Based Electrochemical Sensors MIP-Based Mass Sensors MIP-Based Optical Sensors

Next >