Magnetic Handshake Materials
Magnetic materials provide a unique solution to a long-standing challenge in material science: the development of a scale-invariant technology which uses simple building blocks to build smart, digital, and structurally complex materials.
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Voltage-Driven Multistable Micromachines
We report on a new class of fast, high-curvature, low-voltage, reconfigurable, micrometer-scale shape-memory actuators. They bend to the smallest radius of curvature of any electrically controlled microactuator (~500 nanometers), are fast (<100-millisecond operation), and operate inside the electrochemical window of water. These shape-memory actuators can be used to create basic electrically reconfigurable microscale robot elements including actuating surfaces, origami-based three-dimensional shapes, morphing metamaterials, and mechanical memory elements.
Self-replicating auto-catalyzing digital magnetic polymers
under construction
Magnetic handshake materials as a scale invariant platform for programmed self-assembly
Magnetic materials provide a unique solution to a long-standing challenge in material science: the development of a scale-invariant technology whichuses simple building blocks to build smart, digital, and structurally complex materials.
