Resources

Electrospinning Machine| Novel stable and biocompatible poly L-lactide/β-glycine films for in vivo bone repairing by using nanogenerator with high piezoelectricity 2025-07-28

With the development of wearable devices and implantable medical technologies, piezoelectric materials are increasingly used in vivo, such as monitoring physiological signals, powering implanted devices, and promoting tissue regeneration. Clinical requirements demand that such piezoelectric biomaterials possess high piezoelectricity, flexibility, biocompatibility, and degradability. Compared to traditional inorganic piezoelectric materials (e.g., piezoelectric ceramics) and some piezoelectric polymers (e.g., polyvinylidene fluoride—PVDF), piezoelectric biomaterials exhibit better biocompatibility and can fully degrade in vivo.

Electrospinning Machine| Multi-Electric Field-Enhanced CuInS2-ModifiedTiO2(Anatase)/TiO2(Rutile)/PVDF Nanofiber Membrane for Multifunctional Piezo-Photocatalysis 2025-07-25

Energy shortage and water pollution are major global challenges, urgently requiring the development of clean energy and efficient pollution control technologies. Photocatalysis, with its green and sustainable characteristics, has emerged as an ideal solution for simultaneously achieving energy conversion (e.g., hydrogen production) and pollutant degradation. However, traditional photocatalysts often suffer from high carrier recombination rates, low solar light utilization, and a scarcity of multifunctional broad-spectrum catalysts.

Electrospinning Machine| Enhanced spin polarization in GQDs/TiO2 fibers via magnetic field and oxygen vacancies for photocatalysis 2025-07-24

With the increasing severity of water pollution, photocatalytic technology has demonstrated significant potential in environmental remediation due to its low cost, simple operation, and absence of secondary pollution. However, its practical application is severely limited by low quantum efficiency caused by rapid recombination of photogenerated carriers. Although researchers have employed strategies such as defect engineering, element doping, and heterostructure construction to suppress carrier recombination, the role of spin electronic processes in enhancing photocatalytic performance has long been overlooked. Particularly, the mechanism of strong magnetic fields' influence on photocatalytic processes remains unclear and even controversial, necessitating in-depth research.

Electrospinning Machine| Manipulating d-Band Center and d–p Orbital Coupling to Mitigate Adsorption–Desorption Trade-Off for Efficient CO2-to-CO Photoreduction over MOF Nanofibers 2025-07-23

In the reaction pathway of photocatalytic CO2 reduction to CO, strong CO2 adsorption and easy CO desorption are prerequisites for efficient conversion but represent a trade-off. Simultaneously optimizing these steps remains a key challenge, with limited related research.

Electrospinning Machine| Robust PI composites with high-connected AgNPs for multifunctional electromagnetic interference shielding in harsh environment 2025-07-22

With the rapid development of modern 5G technology, electromagnetic radiation pollution has become a critical factor threatening the reliable operation of electronic devices and human health. Simultaneously, heat accumulation generated by high-power devices significantly reduces equipment performance and lifespan. Developing multifunctional materials with both efficient electromagnetic interference (EMI) shielding and thermal management capabilities has become a core requirement to ensure the stable operation of electronic systems in complex electromagnetic environments. Although durable EMI shielding materials have attracted much attention, the interfacial resistance between conductive fillers severely limits their performance breakthroughs.

Nanofiber Production Equipment| SCOF Hollow Fiber Constructing Ion Selective Conduction Nano-Pipeline Network for Vanadium Redox Flow Batteries 2025-07-21

Electrospinning Machine| Fabrication of Dual Photodynamic Enhanced Antimicrobial CDs@ZIF-8/Polycaprolactone/Ethyl Cellulose Nanofibrous Films for Fruit Preservation 2025-07-19

Microbial contamination poses a severe threat to food, the environment, and public health, raising widespread concern. Chemical preservatives are commonly used to control microbial growth, but long-term use carries risks such as increased resistance, chemical residue accumulation, and reduced antibacterial efficacy. The World Health Organization predicts that by 2050, microbial resistance will cause nearly 10 million deaths annually. Thus, developing green and efficient antibacterial technologies to avoid resistance is crucial.

Electrospinning Machine| An mRNAlipid nanoparticle-incorporated nanofiber- hydrogel composite forcancerimmunotherapy 2025-07-18

Advanced electrospinning machine produces flexible ceramic nanofibers with enhanced mechanical properties via template-free electrospinning, enabling room-temperature plastic deformation for industrial applications.

Electrospinning Machine| Integrationofhighstrength, flexibility, and room- temperature plasticityinceramic nanofibers 2025-07-18

Advanced electrospinning machine produces ceramic nanofibers with superior mechanical properties, enabling plastic deformation and high strength for industrial applications in nanofiber production.

Electrospinning Machine| Fluorine-doped micropore-covered mesoporous carbon nanofibers for long-lasting anode-free sodium metal batteries 2025-07-18

Discover advanced electrospinning machine for nanofiber production, enabling mesoporous carbon fibers for anode-free sodium metal batteries with high energy density and stable cycling performance.

Electrospinning Machine| Askin-interfaced three-dimensional closed-loop sensingand therapeutic electronic wound bandage 2025-07-18

Explore iSAFE, a battery-free electrospinning machine for nanofiber production, enabling smart wound management with electronic wound bandage and localized drug delivery for chronic wound healing.

Electrospinning Machine| Electrospun perovskite quantum dots-based Janus microribbons film with white light and multicolor luminescence for optical data storage and anti-counterfeiting 2025-07-18

To achieve white light or multicolor luminescence from perovskite quantum dots (PQDs), a common method is direct mixing of PQDs with different halogen anions. However, this leads to uncontrolled ion exchange between PQDs, causing unpredictable fluorescence color changes. Thus, the key strategy for efficient and designable multicolor luminescence is spatially confining different PQDs in isolated regions to prevent halogen anion exchange.