A5031836153- Advanced Sensor and Energy Harvesting Materials
- Electromagnetic wave absorption materials
- Advanced Antenna and Metasurface Technologies
- Conducting polymers and applications
- MXene and MAX Phase Materials
- Ideological and Political Education
- AI and HR Technologies
- Advanced Materials and Mechanics
Nanjing University of Posts and Telecommunications
2022-2024
Weifang University
2023-2024
Abstract Wearable human‐machine interaction (HMI) is an advanced technology that realizes operations, collaborations, and interactions between human machines in a co‐located or coordinated way. As the core component of wearable HMI electronics, flexible sensor desirable to be intelligent, accurate, collaborative, multifunctional for feedback control. Here, MXene/polyacrylic acid (PAA) hydrogel prepared by radical polymerization. strain sensor, it exhibits high sensitivity (gauge factor...
With the booming growth of flexible human-computer interactions and telecommunications, it is desirable to fabricate a high-sensitivity strain sensor monitor human movement develop an electromagnetic interference (EMI) shielding materials protect modern microelectronics humans from damage. Herein, biocompatible, stretchable, compressible cellulose/MXene hydrogel has been prepared first realize dual-functional applications in EMI shielding. Two-dimensional MXene nanosheets serve as conductive...
Flexible transparent conductive films (FTCFs) with electromagnetic interference (EMI) shielding performance are increasingly crucial as visualization windows in optoelectronic devices due to their capabilities block radiation (EMR) generated during operation. Metal mesh-based FTCFs have emerged a promising representative which EMI effectiveness (SE) can be enhanced by increasing the line width, reducing spacing, or mesh thickness. However, these conventional approaches decrease optical...
Remote education has long faced the challenge of insufficient immersion. This study attempts to enhance effectiveness remote ideological and political by leveraging virtual reality (VR) technology. The research results indicate that compared traditional online video instruction, VR technology can significantly improve immersion interactivity education. Considering characteristics education, creating scenarios situational simulations enhances students' immersive experiences deepens their...
Flexible strain sensors play a critical role in wearable human–machine interaction (HMI), allowing for natural and intuitive communication between humans machines.