Transient Materials and Bioelectronics for Advanced Healthcare Electronic systems have been serving as technological underpinnings that support most aspects of our lives, ranging from healthcare, energy, to artificial intelligence. Any advancement that can push the fundamental boundary of electronic systems … Read more
Tuning Electrostatic Interactions in Soft Materials Beyond the Mean Field Theory Electrostatic interactions provide tunability for the properties of soft materials in various industries and daily life, such as the dispersion of charged colloids in paints, the self-organization of liquid … Read more
Synthetic manipulation of hybrid organic/inorganic materials for energy conversion and storage Abstract: The development of functional hybrid materials based on inorganic colloidal nanoparticles is of great interest for the next generation of energy conversion and storage devices due to the … Read more
Bioinspired electromechanical sensors and actuators for future prosthetics and haptics Abstract Integrating electronics with the body requires the development of electronic devices that take on characteristics of biological systems, such as softness and 3D form factors. 3D printing enables scalable … Read more
Living systems as design guides for tunable response and ultrafast motion Abstract From nanoscale to macroscale architectures, structured polymeric materials connect disciplines of physics, biology, and engineering and serve as a foundation for understanding the complex interactions leading to motion. … Read more
Harnessing structural complexity for the design of new battery materials Abstract The facile transport of alkali ions in inorganic crystalline materials is a prerequisite for the many electrochemical processes in rechargeable batteries, the production of which is now being rapidly … Read more
