3D Printed Proprioceptive Soft Fluidic Actuators with graded porosity. arXiv preprint arXiv:2302.13141 (2023).
"3D Printing of Soft Fluidic Actuators with Graded Porosity." Soft Matter (2022).
"Passive morphological adaptation for obstacle avoidance in a self-growing robot produced by additive manufacturing." Soft Robotics 2020.
"Sensorized Foam Actuator with Intrinsic Proprioception and Tunable Stiffness Behavior for Soft Robots." Advanced Intelligent Systems 2021.
"A Wearable Sensory Textile‐Based Clutch with High Blocking Force." Advanced Engineering Materials 2019.
"A Soft Sensorized Foot Module to Understand Anisotropic Terrains Dring Soft Robot Locomotion." IEEE RA-L.
"A Vacuum-Powered Soft Textile-Based Clutch." Actuators. 2019.
"Remotely Light‐Powered Soft Fluidic Actuators Based on Plasmonic‐Driven Phase Transitions in Elastic Constraint". Advanced Materials, 31(51), 1905671.
"A novel growing device inspired by plant root-soil penetration behaviors." PloS one 2014.
"Robotic mechanism for soil penetration inspired by plant root." ICRA 2013.
