Multifunctional actuators integrated with the function of self-powered temperature sensing made with Ti₃C₂T_x–bamboo nanofiber composites

Abstract: Multifunctional actuators integrated with the function of self-powered temperature sensing made with Ti3C2Tx–bamboo nanofibers composites.

“…Several researchers have combined PTEG in situ on photo‐thermal actuators to prepare flexible photo‐thermal actuators with self‐powered sensing functions. [ 19 , 20 , 21 ] For example, Chen et al. prepared a graphite/paper/thermochromic dye photo‐thermal material by the pencil‐on‐paper method and applied it to a light‐driven actuator with an integrated self‐powered/visual dual‐mode sensing function and rewritable display function.…”

“…proposed a Ti 3 C 2 T X ‐based composite modified by bamboo nanofibers, based on which a light/electro‐driven actuator was developed to accomplish Marangoni floating and self‐powered temperature sensing. [ 21 ] Benefiting from the wireless actuation characteristics of the light source, the entire energy conversion process can be easily controlled without external force. In addition, PTEGs share similar actuation and energy utilization modes with light‐driven actuators based on the deformation of the asymmetric photo‐thermal expansion mechanism.…”

Multi‐Functional Actuators Made with Biomass‐Based Graphene‐Polymer Films for Intelligent Gesture Recognition and Multi‐Mode Self‐Powered Sensing

“…Several researchers have combined PTEG in situ on photo‐thermal actuators to prepare flexible photo‐thermal actuators with self‐powered sensing functions. [ 19 , 20 , 21 ] For example, Chen et al. prepared a graphite/paper/thermochromic dye photo‐thermal material by the pencil‐on‐paper method and applied it to a light‐driven actuator with an integrated self‐powered/visual dual‐mode sensing function and rewritable display function.…”

“…proposed a Ti 3 C 2 T X ‐based composite modified by bamboo nanofibers, based on which a light/electro‐driven actuator was developed to accomplish Marangoni floating and self‐powered temperature sensing. [ 21 ] Benefiting from the wireless actuation characteristics of the light source, the entire energy conversion process can be easily controlled without external force. In addition, PTEGs share similar actuation and energy utilization modes with light‐driven actuators based on the deformation of the asymmetric photo‐thermal expansion mechanism.…”

Multi‐Functional Actuators Made with Biomass‐Based Graphene‐Polymer Films for Intelligent Gesture Recognition and Multi‐Mode Self‐Powered Sensing