Inspired by the rolling mechanism of the proboscis of a butterfly, rollable electronics that can be rolled and unrolled to a great extent on demand are developed. Generally, electronic devices that are attached to various surfaces to acquire biosignals require mechanical flexibility and sufficient adhesive force. The rollable platform provides sufficient force that grips onto the entire target surface without destroying the target organ. To prove the versatility of our device not only in gripping and detecting biosignals from micro objects but also in performing a variety of functions, thin-film electronics including a heater, strain sensor and temperature sensor are constructed on the rollable platform, and it is confirmed that all the electronics operate normally in the rolled and unrolled states without breakdown. Then, micro bio-objects are gripped by using the rollable platform, and their tiny motions are successfully detected with the sensor on the platform. Furthermore, the detection of the pulse wave signals of swine under diverse experimental conditions is successfully conducted by rolling up the rollable system around the blood vessel of the swine, the result of which proves the feasibility of a rollable platform as a biomedical device.
G. Lee, Y. W. Choi, T. Lee, and K. S. Lim contributed equally to this work. M. Choi acknowledges financial support from the Global Frontier R&D Program of the Center for Multiscale Energy Systems (2012M3A6A7054855) funded from the National Research Foundation (NRF) of Korea. D. Kang, S. M. Kim and H. K. Kim acknowledge financial support from the Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science, ICT & Future Planning (2016R1C1B1009689, 2019R1C1C1006392, 2019R1H1A1080221, 2019R1A2C1090056, and 2017R1C1B5017469). D. Kang acknowledges financial support from the new faculty research fund of Ajou University and the Ajou University research fund. This material is based upon work supported by the Ministry of Trade, Industry & Energy (MOTIE, Korea) under Industrial Technology Innovation Program, No. 20000512, \u201cDevelopment of Task Planning, Gripping and Manipulation Technologies of Deformable Objects based on Machine Learning for Manufacturing and Logistical Process\u201d.
