Background Introduction Flexible capacitive pressure sensors have broad application prospects in intelligent robotics, medical monitoring, and human-machine interaction due to their high sensitivity, fast response, and excellent mechanical flexibility. However, traditional dielectric elastomers typically have low dielectric constants, limiting the ...

Academic Background With the rapid development of the Internet of Things and wearable electronics, the demand for smart sensors in fields such as physiological monitoring, smart clothing, and human-computer interaction has been increasing. In particular, flexible multifunctional sensors have attracted significant attention due to their potential ap...

Academic Background With the rapid development of wearable electronic devices (such as health monitoring devices and human-computer interaction devices), the demand for flexible, safe, and sustainable power solutions is becoming increasingly urgent. Although traditional lithium-ion batteries are widely used, their rigid structure, safety risks, env...

Novel Biodegradable Air Filtration Material: The Combination of PLA Melt-Blown Nonwovens and Breath-Figure Technology Academic Background With the increasing severity of air pollution, particularly the threat of fine particulate matter (PM2.5) to human health, the demand for efficient air filtration materials is growing. Traditional air filtration ...

Academic Background With the widespread use of electronic devices, the negative impacts of electromagnetic interference (EMI) on human health and device lifespan have become increasingly significant. Traditional metal-based electromagnetic shielding materials, while highly conductive, suffer from rigidity and poor processability, making them unsuit...

Academic Background Wound infection is a significant concern for patients and healthcare professionals worldwide, particularly in the management of severe wounds. Inappropriate dressings can increase the risk of infection, prolong healing time, and even lead to higher mortality rates and economic burdens. Traditional wound dressings, such as gauze ...

Academic Background With the continuous increase in global greenhouse gas emissions, environmental temperatures are rising, posing potential threats to human health and productivity due to extreme weather conditions. Especially in summer, the widespread use of cooling devices such as air conditioners and electric fans has led to a sharp increase in...

Study on Peripheral Nerve Regeneration Based on Multi-Gradient MgO/MgCO₃/PCL Nanofiber Membranes Academic Background Peripheral nerve defects are a common and complex orthopedic issue in clinical practice, with limited efficacy of current treatments. The insufficient proliferation and dysfunction of Schwann cells within nerve scaffolds are key fact...

Super-Elastic Phenylalanine Dipeptide Crystal Fibers in Wearable and Implantable Bioelectronics Background With the rapid development of flexible bioelectronics, the development of piezoelectric materials and devices with high elasticity, breathability, and the ability to achieve conformal deformation with the human body has become an important res...

Study on Surface Modification of Polyimide Fibers to Promote Ligament-Bone Healing Academic Background Anterior Cruciate Ligament (ACL) injury is one of the most common sports injuries worldwide, with approximately 1 in 1,250 people requiring ACL reconstruction surgery each year. Currently, the main methods for ACL reconstruction include autografts...