Yo Kobayashi scite author profile

To minimize the interference that skin-contact strain sensors cause natural skin deformation, physical conformability to the epidermal structure is critical. Here, we developed an ultrathin strain sensor made from poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) inkjet-printed on a polystyrene–polybutadiene–polystyrene (SBS) nanosheet. The sensor, whose total thickness and gauge factor were ∼1 µm and 0.73 ± 0.10, respectively, deeply conformed to the epidermal structure and successfully detected the small skin strain (∼2%) while interfering minimally with the natural deformation of the skin. Such an epidermal strain sensor will open a new avenue for precisely detecting the motion of human skin and artificial soft-robotic skin.

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Development of a robotic system with six-degrees-of-freedom robotic tool manipulators for single-port surgery

Kobayashi

Sasaki

Noguchi

et al. 2014

Int J Med Robotics Comput Assist Surg

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Yo Kobayashi

Combined Therapy Using Q-Switched Ruby Laser and Bleaching Treatment with Tretinoin and Hydroquinone for Periorbital Skin Hyperpigmentation in Asians

Enhanced Targeting in Breast Tissue Using a Robotic Tissue Preloading-Based Needle Insertion System

Ultrathin epidermal strain sensor based on an elastomer nanosheet with an inkjet-printed conductive polymer

Development of a robotic system with six-degrees-of-freedom robotic tool manipulators for single-port surgery

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