Soft robots' flexibility and compliance give them the potential to outperform traditional rigid-
bodied robots while performing multiple tasks in unexpectedly changing environments and …

In contrast to conventional hard actuators, soft actuators offer many vivid advantages, such
as improved flexibility, adaptability, and reconfigurability, which are intrinsic to living …

Microrobots have attracted the attention of scientists owing to their unique features to
accomplish tasks in hard-to-reach sites in the human body. Microrobots can be precisely …

Soft robotics technologies are paving the way toward robotic abilities which are vital for a
wide range of applications, including manufacturing, manipulation, grip**, human …

Biohybrid systems have been developed to better understand the design principles and
coordination mechanisms of biological systems. We consider whether two functional …

Growing demand for customized pharmaceutics and medical devices makes the impact of
additive manufacturing increased rapidly in recent years. The 3D printing has become one …

Bioengineering approaches that combine living cellular components with three-dimensional
scaffolds to generate motion can be used to develop a new generation of miniature robots …

Robot swarms have, to date, been constructed from artificial materials. Motile biological
constructs have been created from muscle cells grown on precisely shaped scaffolds …

The integration of microorganisms and engineered artificial components has shown
considerable promise for creating biohybrid microrobots. The unique features of microalgae …

Vast potential exists for the development of novel, engineered platforms that manipulate
biology for the production of programmed advanced materials. Such systems would possess …