A5100383121- Advanced Sensor and Energy Harvesting Materials
- Tactile and Sensory Interactions
- Conducting polymers and applications
- Muscle activation and electromyography studies
- Advanced Materials and Mechanics
- Innovative Energy Harvesting Technologies
- Nanomaterials and Printing Technologies
- Robotic Mechanisms and Dynamics
- Electrical and Bioimpedance Tomography
- Aluminum Alloys Composites Properties
- Metallurgy and Material Forming
- Gas Sensing Nanomaterials and Sensors
- Analytical Chemistry and Sensors
- Non-Invasive Vital Sign Monitoring
- Neuroscience and Neural Engineering
- Smart Materials for Construction
- Stability and Control of Uncertain Systems
- Balance, Gait, and Falls Prevention
- Dielectric materials and actuators
- Soft Robotics and Applications
- Robot Manipulation and Learning
- High-pressure geophysics and materials
- Ultrasonics and Acoustic Wave Propagation
- Advanced X-ray and CT Imaging
- Advanced Welding Techniques Analysis
Tsinghua University
2013-2025
Beijing University of Technology
2015-2025
National University of Defense Technology
2025
State Key Laboratory of Pulsed Power Laser Technology
2025
Nanjing University
2024
China Academy of Space Technology
2024
Nanjing University of Posts and Telecommunications
2023
Guangdong University of Technology
2019-2023
Hunan University of Technology
2023
Hebei University of Technology
2023
Electrochemical twin channels make glucose in vessels measurable by noninvasive ultrathin skin-like highly sensitive biosensors.
Abstract Flexible electronics attached to skin for healthcare, such as epidermal electronics, has struggle with biocompatibility and adapt specified environment of respect breath perspiration. Here, we report a strategy biocompatible flexible temperature sensors, inspired by skin, possessing the excellent permeability air high quality water-proof using semipermeable film porous structures substrate. We attach sensors underarm forearm measure axillary body surface respectively. The volunteer...
Abstract Flexible inorganic bioelectronics represent a newly emerging and rapid developing research area. With its great power in enhancing the acquisition, management utilization of health information, it is expected that these flexible stretchable devices could underlie new solutions to human problems. Recent advances this area including materials, devices, integrated systems their biomedical applications indicate through conformal seamless contact with body, measurement becomes continuous...
Flexible pressure sensors have attracted considerable attention because of their potential applications in healthcare monitoring and human–machine interactions. However, the complicated fabrication process cos sensing materials limit widespread practice. Herein, a flexible sensor with outstanding performances is presented through an extremely simple cost-efficient process. The are based on low-cost carbon black (CB)@airlaid paper (AP) composites, which just prepared by drop-casting CB...
Abstract Power supply for medical implantable devices (i.e. pacemaker) always challenges not only the surgery but also battery technology. Here, we report a strategy energy harvesting from heart motion by using ultra-flexible piezoelectric device based on lead zirconate titanate (PZT) ceramics that has most excellent piezoelectricity in commercial materials, without any burden or damage to hearts. Experimental swine are selected vivo test with different settings, i.e. opened chest, close...
Abstract The increased need for wearable and implantable medical devices has driven the demand electronics that interface with living systems. Current bioelectronic systems have not fully resolved mismatches between engineered circuits biological systems, including resulting pain damage to tissues. Here, salt/poly(ethylene glycol) (PEG) aqueous two‐phase are utilized generate programmable hydrogel ionic circuits. High‐conductivity salt‐solution patterns stably encapsulated within PEG...
Flexible and stretchable electronics offer a wide range of unprecedented opportunities beyond conventional rigid electronics. Despite their vast promise, significant bottleneck lies in the availability transfer printing technique to manufacture such devices highly controllable scalable manner. Current technologies usually rely on manual stick-and-place do not feasible mechanisms for precise quantitative process control, especially when scalability is taken into account. Here, we demonstrate...
Flexible and stretchable optoelectronics, built-in inorganic semiconductor materials, offer a wide range of unprecedented opportunities will redefine the conventional rigid optoelectronics in biological application medical measurement. However, significant bottleneck lies brittleness nature materials performance's extreme sensitivity to light intensity variation due human skin deformation while measuring physical parameters. In this study, authors demonstrate systematic strategy design an...
A versatile 3D carbon nanofiber network with an ultrahigh pressure-sensitivity is prepared to monitor human physiological signals.
Abstract Compared to the traditional motor‐driven prosthetic hand, a soft hand (SPD) has intrisic advantages such as kinematics dexterity and friendly external interaction. In order for an SPD realize function of real integration flexible high‐performance tactile sensors is essential. Current research on mainly focused increasing sensitivity, but ignores other issues, complexity arraying compatibility with actuators. A force sensor enabling intelligent perception reported. With aid...
Abstract Flexible pressure sensors are attracting considerable attention due to their potential applications in human health monitoring and human‐machine interfaces. However, it is hard achieve both high sensitivity wide linear detection range, the complicated fabrication process restricts practical applications. Herein, a simple scalable for flexible sensor with range has been developed by combining silver nanowires coated, laser‐ablated hierarchical microstructured polydimethylsiloxane, an...
Polarized and unpolarized neutron-diffraction measurements have been carried out to investigate the iron magnetic order in undoped NdFeAsO. Antiferromagnetic is observed below 141(6) K, which close proximity structural distortion this material. The structure consists of chains parallel spins that are arranged antiparallel between chains, same in-plane spin arrangement as all other oxypnictide materials. Nearest-neighbor along $c$ axis like LaFeAsO. ordered moment...
Abstract Despite the increasingly important role of stretchable electronics for use as human–machine interface, their manufacturing in a commercially realistic manner remains an unresolved challenge. The bottleneck lies efficiency and scalability transfer printing that is typically employed fabrication process to enable device stretchability via strain isolation. Here, polymer substrate with programmable rigidity direct reported, forgoing need while significantly enhancing starts elastomeric...
Wearable electronics have attracted much attention and are experiencing rapid growth in recent years. Such devices expected to stay closer the human body (i.e., attached skin) for better performance. Therefore, ultra-flexibility of such is necessary order make sensor conform when used healthcare monitoring. Here, we present a biocompatible ultra-flexible strain pulse motion real-time long-term measurement. The sensor, fabricated integrated on semi-permeable substrate with good...
The trends toward flexible and wearable electronic devices give rise to the attention of triboelectric nanogenerators (TENGs) which can gather tiny energy from human body motions. However, accommodate needs, electronics are still facing challenges for choosing a better dielectric material improve their performance practicability. As kind synthetic rubber, thermoplastic elastomer (TPE) contains many advantages such as lightweight, good flexibility, high tear strength, friction resistance,...
Friction rolling additive manufacturing (FRAM) is a solid-state method capable of accommodating wide range material forms. However, there lack comprehensive research on the optimal feedstock form. Thus, this study investigated influence shape formation, microstructure, and mechanical properties. The results revealed that irrespective whether strip or wire was used, plasticized flowed through thin plastic flow channel (approximately 112 μm) between tool head feedstock. Wire resulted in...
Abstract Despite the increasingly significant role of flexible electronics in information, energy, and medical treatment, their integration with a special‐shaped interface remains an unresolved challenge. The traditional transfer method, as core technology device integration, is still unsuitable for thinned chips 3D sensors. Solid‐contact elastomer stamp sometimes causes cracks while non‐contact method such sacrificial layer fails to achieve precise positioning transfer. Herein, authors...
Triboelectric nanogenerators (TENGs) have aroused extensive interests in recent years, and their energy conversion efficiency increased gradually under massive efforts. Applied force dielectric thickness are two important factors accounting for the high output performance. Nevertheless, most commonly used TENGs contact-separation mode, comprehensive dependence of impact is still expected to be further deeply researched optimized. Hence, we fabricated a nylon-PTFE TENG mode explored dual...