Roadmap on soft robotics: multifunctionality, adaptability and growth without borders

Mazzolai, Barbara; Carpi, Federico; Suzumori, Koichi; Cianchetti, Matteo; Speck, Thomas; Smoukov, Stoyan K.; Burgert, Ingo; Keplinger, Tobias; Siqueira, Gilberto; Vanneste, Felix; Goury, Olivier; Duriez, Christian; Nanayakkara, Thrishantha; Vanderborght, Bram; Brancart, Joost; Terryn, Seppe; Rich, Steven; Liu, Ruiyuan; Fukuda, Kenjiro; Someya, Takao; Calisti, Marcello; Laschi, Cecilia; Sun, Wenguang; Wang, Gang; Wen, Li; Baines, Robert; Patiballa, Sree Kalyan; Kramer, Rebecca K.; Rus, Daniela; Fischer, Peer; Simmel, Friedrich C.; Lendlein, Andreas

doi:10.1088/2399-7532/ac4c95

Cited by 62 publications

(46 citation statements)

References 218 publications

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“…Further, Mazzolai and others have demonstrated nanosteam generators. [14][15][16] However, in our hands and especially at millimeter scale or above, we found that encasing aqueous droplets in elastomeric polymers such as PDMS led to inconsistent photothermal actuation. This was observed as the droplet heating and spattering into smaller droplets which required time and mechanical agitation to coalesce into a functional droplet again (Fig.…”

Section: Soft Actuationmentioning

confidence: 54%

Near-IR actuator bimorphs: soft robot locomotion and Piezo protein activation

Gomez

Vishnosky

Kim

et al. 2022

Preprint

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A novel soft actuator is designed, fabricated, and optimized from liquid marbles encased via interfacial polymerization for added mechanical strength and robustness. They are encased in bimorph-type soft actuators where one side of the actuator has a dramatically different Young’s modulus than the other, leading to directional actuation which is successfully demonstrated in multistep walking soft robots. The soft actuators were also shown to successfully activate the mechanosensitive Piezo protein in a transfected human cell line, 293T. Overall, the liquid marble powered soft actuators described here represent a new soft actuation methodology and a novel tool for mechanobiological studies.

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Section: Soft Actuationmentioning

confidence: 54%

Near-IR actuator bimorphs: soft robot locomotion and Piezo protein activation

Gomez

Vishnosky

Kim

et al. 2022

Preprint

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“…Such minimal systems are of interest both in origin of life studies 35 and in growing bottom-up robotics. 36,37…”

Section: Resultsmentioning

confidence: 99%

Minimum surfactant concentration required for inducing self-shaping of oil droplets and competitive adsorption effects

et al. 2022

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“…Analyzing biology allows us to develop artificial agents that have similar capabilities [20] and also to understand how EI arises in these beings through 'robo-physics'. There is increasing awareness and acceptance that plants offer and demonstrate many aspect of EI which can provide many insights into EI [21]. Furthermore, their 'brainless' structure still enables computation and intelligence, challenging views and perspective of standard concepts and ideas of intelligence.…”

Section: Current Trends 21 Bio-inspiration and Soft Roboticsmentioning

confidence: 99%

Embodied Artificial Intelligence: Enabling the Next Intelligence Revolution

Hughes

Abdulali

Hashem

et al. 2022

IOP Conf. Ser.: Mater. Sci. Eng.

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There has been a long-standing debate about the extent to which the human mind controls the human body and vice-versa. Today this debate still powers a profound scientific desire to deepen our understanding of the nature of both humans' and animals' intelligent, adaptive behavior. In order to gain further insights into intelligence and explore how our brain and bodies develop through physical interactions with the world, Embodied Intelligence places the physical entity of the human body at the center of this subject. In the age of AI and Machine Learning, Embodied Intelligence research remains highly important as it can deliver valuable input which enhances the impact of conventional AI technology. Embodied Intelligence provides potential solutions for current AI technologies that are dependent on large amounts of data and reliable output whilst that output is reliant on uncertain, unstructured tasks and situations aligned closely to human users both as individuals and communities. In the following Chapter we discuss current trends and directions within this interdisciplinary community, and also the future challenges and opportunities.

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Roadmap on soft robotics: multifunctionality, adaptability and growth without borders

Cited by 62 publications

References 218 publications

Near-IR actuator bimorphs: soft robot locomotion and Piezo protein activation

Near-IR actuator bimorphs: soft robot locomotion and Piezo protein activation

Minimum surfactant concentration required for inducing self-shaping of oil droplets and competitive adsorption effects

Embodied Artificial Intelligence: Enabling the Next Intelligence Revolution

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