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Fuel-Powered Soft Actuators: Emerging Strategies for Autonomous and Miniaturized Robots

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Go to the profile of Lillian Zhang
Lillian Zhang
Editor, Nano-Micro Letters
Fuel-Powered Soft Actuators: Emerging Strategies for Autonomous and Miniaturized Robots
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Fuel-Powered Soft Actuators: Emerging Strategies for Autonomous and Miniaturized Robots - Nano-Micro Letters

Soft actuators, capable of producing mechanical work in response to external stimuli, have potential applications in robotics and exoskeletons. However, they face major challenges related to energy supply, especially in long-distance and miniaturized environments. Fuel-driven actuators offer a promising solution by enabling the conversion of chemical energy into mechanical energy, supporting self-sustaining operations. Chemical energy from fuel can be converted into mechanical energy either directly or indirectly through methods such as electron transfer-induced charge injection, structural changes, fuel-to-electricity conversion, fuel combustion-induced heat, or fuel-induced pneumatic actuation. This paper provides a comprehensive review of recent developments in fuel-powered actuators, covering their fundamental principles, advancements, and challenges. It concludes with an outlook for miniaturized and autonomous robots, highlighting the great potential of integrating fuel-powered actuators.

Soft actuators, capable of producing mechanical work in response to external stimuli, have potential applications in robotics and exoskeletons. However, they face major challenges related to energy supply, especially in long-distance and miniaturized environments. Fuel-driven actuators offer a promising solution by enabling the conversion of chemical energy into mechanical energy, supporting self-sustaining operations. Chemical energy from fuel can be converted into mechanical energy either directly or indirectly through methods such as electron transfer-induced charge injection, structural changes, fuel-to-electricity conversion, fuel combustion-induced heat, or fuel-induced pneumatic actuation. This paper provides a comprehensive review of recent developments in fuel-powered actuators, covering their fundamental principles, advancements, and challenges. It concludes with an outlook for miniaturized and autonomous robots, highlighting the great potential of integrating fuel-powered actuators.

Go to the profile of Lillian Zhang
Lillian Zhang
Editor, Nano-Micro Letters

Editor of Nano-Micro Letters, which is an Open-Access, peer-reviewed journal reported papers that have at least one dimension ranging from a few sub-nanometers to a few hundreds of micrometers. The journal is published by Springer Nature and indexed by SCI, EI, SCOPUS, Pubmed, etc. The 2024 JCR Impact Factor is 36.3. The 2024 CiteScore is 53.1.

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Materials for Devices
Physical Sciences > Materials Science > Materials for Devices
Nanoscale Design, Synthesis and Processing
Physical Sciences > Materials Science > Nanotechnology > Nanoscale Design, Synthesis and Processing
Actuators
Physical Sciences > Materials Science > Materials for Devices > Actuators
Biomedical Materials
Physical Sciences > Materials Science > Biomaterials > Biomedical Materials
  • Nano-Micro Letters Nano-Micro Letters

    Nano-Micro Letters is a peer-reviewed, international, interdisciplinary and open-access journal that focus on science, experiments, engineering, technologies and applications of nano- or microscale structure and system in physics, chemistry, biology, material science, and pharmacy.

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