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Algae Architects.

Sponge Gives Up Nano Secrets.

Biomimicry for Bones.

How do People and Researchers Look to Chinese Herbal Medicine?

Agilent 1200 Infinity Series.

Recent developments in the field of manufacturing techniques and alloy development of light materials are reviewed. In the field of manufacturing Aluminium based components, special attention is given to casting, including liquid forging and semi-solid forming technology while for sheet metal forming technology the focus is on material properties and process technology in superplastic forming. For the manufacturing of Magnesium-based components, special attention is given to casting processes and alloy development for casting. For wrought Magnesium, material properties control is covered. For Titanium-based components, an overview of the latest additions to high strength alloys are given, including non-linear elasticity as demonstrated by materials like GUM Metal™. Advanced forming technology such as Levi Casting are also treated.

An efficient and stable catalyst was prepared utilizing reduced graphene oxide, Ag nanoparticles and melamine sponge for the restoration of large volume effluent containing 4-nitrophenol at room temperature. And the as-prepared sample is suitable for continuous flow system. Almost 99% 4-nitrophenol ($1.0\times 10^{-4}$molL${}^{-1}$, 100mL) can be removed within 4min in the presence of the aforementioned sample. Moreover, it also exhibits remarkable stability in continuous flow system. This may offer a new route to the fabrication of efficient flowing catalytic system.

The essential role and function of a dressing is to provide an environment that promotes wound healing. In this study, the development and characterization of novel polymer hybrid sponge based on chitosan-Grifola frondosa polysaccharide and cross-linked by freeze-thaw method for possible use in a variety of biomedical application is reported. A water-soluble sulfated derivative G. frondosa polysaccharide was obtained from G. frondosa polysaccharide with 98% of concentrated sulfuric acid. To make effective wound healing accelerator, a chitosan/sulfated G. frondosa polysaccharides hybrid sponge was prepared. To evaluate the wound healing effect, full thickness skin excision was performed on the backs of the rats and then the sponge was applied in the wounds, respectively. After 7 days and 14 days, gross and histological examination was performed. Grossly, untreated control group revealed that the wound had well-defined margin and was covered by crust. The testing group treated with sponge appeared to be nearly completely healed. Histology of each group was well correlated to gross findings. The testing group shows nearly complete regeneration of appendage structure similar to normal in the dermis in contrast to control group with absence and less number of skin appendages. It hints that the sponge can accelerate wound healing. The result indicates that the chitosan/sulfated G. frondosa polysaccharide hybrid sponge is a promising dressing for wound healing.