Supporting data for “Aqueous Phase Separation Induced Self-Assembly Towards All-Water Robotics”

<p>This supporting data is the supplemental videos for the thsis entitled “<strong>Aqueous Phase Separation Induced Self-Assembly Towards All-Water Robotics</strong>”.</p> <p>Video S1: Printed aqueous thread breaking into droplets in the absence of nanoparticles-polyelectrolyte stabilizers". </p> <p>Video S2: Measurement of the critical distance of the magnetic responsiveness at different concentration of Fe3O4 nanoparticles.</p> <p>Video S3: Dynamic soft responsiveness of the aquabot illustrated by its bending ability.</p> <p>Video S4: Aquabot adapts its shape to grip, transport and release objects in water.</p> <p>Video S5: Flow-through enabled cascade biocatalytic reactions in the body of the aquabot.</p> <p>Video S6: Control experiment of cascade reactions without GOx but with HRP.</p> <p>Video S7: Control experiment of cascade reactions without GOx and HRP.</p> <p>Video S8: Target photocatalysis of the aquabot in the narrow and confined space.</p> <p>Video S9: Control experiment for the target photocatalysis.</p> <p> Video S10: Target delivery and release of the aquabot in the narrow and confined space.</p> <p><br></p> <p><br></p> <p><br></p>