Mechanically Responsive Materials for Soft Robotics 2019
DOI: 10.1002/9783527822201.ch16
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Biohybrid Robot Powered by Muscle Tissues

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Cited by 5 publications
(5 citation statements)
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“…Meanwhile, the heterogeneous stimulation refers to the response regarding to the external environment variation, such as humidity, pH, optical, electrical or thermal stimuli. 140 Based on different mechanisms, the hydrogel actuation could be categorized into osmotic actuation, 141 cell-powered actuation, 142 pneumatic/hydraulic actuation, 143 magnetic actuation 144 and acoustic actuation 145 . Different 3D printing techniques have been employed to fabricate the hydrogel actuators.…”
Section: Applications In Flexible Electronicsmentioning
confidence: 99%
“…Meanwhile, the heterogeneous stimulation refers to the response regarding to the external environment variation, such as humidity, pH, optical, electrical or thermal stimuli. 140 Based on different mechanisms, the hydrogel actuation could be categorized into osmotic actuation, 141 cell-powered actuation, 142 pneumatic/hydraulic actuation, 143 magnetic actuation 144 and acoustic actuation 145 . Different 3D printing techniques have been employed to fabricate the hydrogel actuators.…”
Section: Applications In Flexible Electronicsmentioning
confidence: 99%
“…The design of skeletal muscle-based robotic devices generally implies the presence of a synthetic interface in the 3D culture, like a skeleton to the native muscle, to ensure the strain and mechanical integrity of the device. Therefore, most examples we find are biohybrid systems that fall into the soft robotic field, presenting flexible structures and moving in liquids containing the necessary nutrients and oxygen concentration, although a biohybrid robot moving in air has recently been reported [107].…”
Section: Skeletal Muscle-powered Devicesmentioning
confidence: 99%
“…Cells can be cultured as monolayers to drive bending-based actuation of bilayer cantilevers ( Marzban and Yuan, 2016 ; Chan et al, 2012 ; Ricotti and Fujie, 2017 ), or can be cultured as three dimensional tissues using casting ( Cvetkovic et al, 2014 ; Raman et al, 2016 ) or 3D printing ( Mestre et al, 2019 ). Although many example of mobile hydrogel devices are now available in the literature ( Ricotti et al, 2017 ; Webster-Wood et al, 2017 ; Sun et al, 2020 ; Morimoto and Takeuchi, 2020 ), challenges remain both in identification of optimal hydrogel composition and stiffness, and in scaling up cell-powered actuators for macro-scale applications ( Won et al, 2020 ). Despite these challenges, cell-powered actuation of hydrogels posses many unique advantages through the inclusion of material that is self-healing, renewable, and adaptable.…”
Section: Actuation Modalitiesmentioning
confidence: 99%