Kyohei Hisano scite author profile

This review provides an overview of the current state‐of‐the‐art of the emerging field of flexible multifunctional sensors for wearable and robotic applications. In these application sectors, there is a demand for high sensitivity, accuracy, reproducibility, mechanical flexibility, and low cost. The ability to empower robots and future electronic skin (e‐skin) with high resolution, high sensitivity, and rapid response sensing capabilities is of interest to a broad range of applications including wearable healthcare devices, biomedical prosthesis, and human–machine interacting robots such as service robots for the elderly and electronic skin to provide a range of diagnostic and monitoring capabilities. A range of sensory mechanisms is examined including piezoelectric, pyroelectric, piezoresistive, and there is particular emphasis on hybrid sensors that provide multifunctional sensing capability. As an alternative to the physical sensors described above, optical sensors have the potential to be used as a robot or e‐skin; this includes sensory color changes using photonic crystals, liquid crystals, and mechanochromic effects. Potential future areas of research are discussed and the challenge for these exciting materials is to enhance their integration into wearables and robotic applications.

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Scanning wave photopolymerization enables dye-free alignment patterning of liquid crystals

Hisano

Aizawa

Ishizu

et al. 2017

Sci. Adv.

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Thermo-, photo-, and mechano-responsive liquid crystal networks enable tunable photonic crystals

et al. 2017

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Kyohei Hisano

Flexible Multifunctional Sensors for Wearable and Robotic Applications

Scanning wave photopolymerization enables dye-free alignment patterning of liquid crystals

Thermo-, photo-, and mechano-responsive liquid crystal networks enable tunable photonic crystals

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