INTRODUCTION The integration of soft ion-conducting materials into the fabrication of electronic devices has enabled the development of entirely new classes of soft devices,namely,ionotronics.These ionotronic devices ...INTRODUCTION The integration of soft ion-conducting materials into the fabrication of electronic devices has enabled the development of entirely new classes of soft devices,namely,ionotronics.These ionotronic devices are characterized by high deform-ability,transparency,and biocompatibility1,2-features not easily accessible with conventional electronic devices.Demon-strated examples include ionic logic circuits,3−6 artificial skin,7,8 light-emitting devices,9,10 biomimicking power generators,11 wearable devices,12,13 and soft actuators.展开更多
This study proposes a rational strategy for the design,fabrication and system integration of the humanoid intelligent display platform(HIDP)to meet the requirements of highly humanized mechanical properties and intell...This study proposes a rational strategy for the design,fabrication and system integration of the humanoid intelligent display platform(HIDP)to meet the requirements of highly humanized mechanical properties and intelligence for human-machine interfaces.The platform’s sandwich structure comprises a middle lightemitting layer and surface electrodes,which consists of silicon elastomer embedded with phosphor and silk fibroin ionoelastomer,respectively.Both materials are highly stretchable and resilient,endowing the HIDP with skin-like mechanical properties and applicability in various extreme environments and complex mechanical stimulations.Furthermore,by establishing the numerical correlation between the amplitude change of animal sounds and the brightness variation,the HIDP realizes audiovisual interaction and successful identification of animal species with the aid of Internet of Things(IoT)and machine learning techniques.The accuracy of species identification reaches about 100%for 200 rounds of random testing.Additionally,the HIDP can recognize animal species and their corresponding frequencies by analyzing sound characteristics,displaying real-time results with an accuracy of approximately 99%and 93%,respectively.In sum,this study offers a rational route to designing intelligent display devices for audiovisual interaction,which can expedite the application of smart display devices in human-machine interaction,soft robotics,wearable sound-vision system and medical devices for hearing-impaired patients.展开更多
基金supported by the National Research Foundation of Korea(NRF-2022R1C1C1013490)Korea Environment Industry&Technology Institute(KEITI)through Center of Plasma Process for Organic Material Recycling Program,funded by Korea Ministry of Environment(MOE)(ARQ202209003002)。
文摘INTRODUCTION The integration of soft ion-conducting materials into the fabrication of electronic devices has enabled the development of entirely new classes of soft devices,namely,ionotronics.These ionotronic devices are characterized by high deform-ability,transparency,and biocompatibility1,2-features not easily accessible with conventional electronic devices.Demon-strated examples include ionic logic circuits,3−6 artificial skin,7,8 light-emitting devices,9,10 biomimicking power generators,11 wearable devices,12,13 and soft actuators.
基金supported by the National Natural Science Foundation of China (Nos. 21935002, 51973116, 52003156)the starting grant of ShanghaiTech Universitythe Double First-Class Initiative Fund of ShanghaiTech University
文摘This study proposes a rational strategy for the design,fabrication and system integration of the humanoid intelligent display platform(HIDP)to meet the requirements of highly humanized mechanical properties and intelligence for human-machine interfaces.The platform’s sandwich structure comprises a middle lightemitting layer and surface electrodes,which consists of silicon elastomer embedded with phosphor and silk fibroin ionoelastomer,respectively.Both materials are highly stretchable and resilient,endowing the HIDP with skin-like mechanical properties and applicability in various extreme environments and complex mechanical stimulations.Furthermore,by establishing the numerical correlation between the amplitude change of animal sounds and the brightness variation,the HIDP realizes audiovisual interaction and successful identification of animal species with the aid of Internet of Things(IoT)and machine learning techniques.The accuracy of species identification reaches about 100%for 200 rounds of random testing.Additionally,the HIDP can recognize animal species and their corresponding frequencies by analyzing sound characteristics,displaying real-time results with an accuracy of approximately 99%and 93%,respectively.In sum,this study offers a rational route to designing intelligent display devices for audiovisual interaction,which can expedite the application of smart display devices in human-machine interaction,soft robotics,wearable sound-vision system and medical devices for hearing-impaired patients.
