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Waterproof and breathable membranes that prevent liquid water penetration, while allowing air and moisture transmission, have attracted significant attention for various applications. Electrospun nanofiber materials with adjustable pore structures, easily tunable wettability, and good pore connectivity, have shown significant potential for constructing waterproof and breathable membranes. Herein,...
Low‐cost and stable sodium‐layered oxides (such as P2‐ and O3‐phases) are suggested as highly promising cathode materials for Na‐ion batteries (NIBs). Biphasic hybridization, mainly involving P2/O3 and P2/P3 biphases, is typically used to boost their electrochemical performances. Herein, a P3/O3 intergrown layered oxide (Na2/3Ni1/3Mn1/3Ti1/3O2) as high‐rate and long‐life cathode for NIBs via tuning...
With ever‐increasing efforts focused on basic research of sodium‐ion batteries (SIBs) and growing energy demand, sodium‐ion full cells (SIFCs), as unique bridging technology between sodium‐ion half‐cells (SIHCs) and commercial batteries, have attracted more and more interest and attention. To promote the development of SIFCs in a better way, it is essential to gain a systematic and profound insight...
Abdominal miliary spread and metastasis is one of the most aggressive features in advanced ovarian cancer patients. The current standard treatment of advanced ovarian cancer is cytoreductive surgery (CRS) combined with hyperthermic intraperitoneal chemotherapy (HIPEC). However, most patients cannot receive optimal CRS outcomes due to the extreme difficulty of completely excising all microtumors during...
In article 1702139, Xia Yin, Bin Ding, and co‐workers create a free‐standing nanofiber/nets air filter assembled with two‐dimensional nanonets (≈20 nm) and bonded nanofibers by combining an electrospinning/netting technique and peel off process from designed substrates. Due to small pore size, high porosity, and free‐standing capacity, the ultrathin filter can achieve a removal efficiency of >99...
The filtration performance and light transmittance of nanofiber air filters are restricted by their thick fiber diameter, large pore size, and substrate dependence, which can be solved by constructing substrate‐free fibrous membranes with true nanoscale diameters and ultrathin thicknesses, however, it has proven to be extremely challenging. Herein, a roust approach is presented to create free‐standing...
In article number 1603306 Bin Ding and co‐workers fabricate a cleanable air filter that transfers moisture and effectively captures PM2.5. The air filter was fabricated via electrospinning using super‐hydrophilic PAN fibers as the adsorption‐desorption vectors for moisture‐vapor and hydrophobic PVDF fibers as the repellent components. A hydrophobic to super‐hydrophilic gradient structure provides...
The lethal danger of particulate matter (PM) pollution on health leads to the development of challenging individual protection materials that should ideally exhibit a high PM2.5 purification efficiency, low air resistance, an important moisture‐vapor transmission rate (MVTR), and an easy‐to‐clean property. Herein, a cleanable air filter able to rapidly transfer moisture and efficiently capture PM2.5...
The filtration capacity of fibrous media for airborne particles is restricted by their thick diameter, low porosity, and limited frontal area. The ability to solve this problem would have broad technological implications for various air filtration applications; despite many past efforts, it remains a great challenge to achieve. Herein, a facile and scalable strategy to fabricate the ripple‐like polyamide‐6...
A ripple‐like polyamide‐6 nanofiber/nets membrane filter composed of twodimensional nanonets (≈20 nm) and a scaffold framework is fabricated by Bin Ding and co‐workers in article number 1603151, by combining an electrospinning/netting technique with the receiving substrate design. By virtue of its small pore size and stable cavity structure, the filter can filtrate ultrafine airborne particles with...
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