A novel molecular probe for identifying properties of supported transition metals and metal oxides catalysts was established.The catalytic mechanism of transition metals was proposed.
Nickel was deposited by ac electrolysis deposition in the pores of the porous oxide film of Al produced by anodizing in phosphoric acid. Ultrafine rod-shaped Ni particles were formed in the pores. At the same time a f...Nickel was deposited by ac electrolysis deposition in the pores of the porous oxide film of Al produced by anodizing in phosphoric acid. Ultrafine rod-shaped Ni particles were formed in the pores. At the same time a film of Ni oxide precursor was developed on the surface of the porous oxide film. The Ni particles and the Ni oxide precursor were examined by SEM, TEM and X-ray diffraction. The thickness of the barrier layer of the porous oxide film was thin and it attributed to the formation of the metal particles, while the formation of the oxide precursor was associated with the surface pits which were developed in the pretreatment of Al.展开更多
Moderate or severe burns are potentially devastating injuries that can even cause death,and many of them occur every year.Infection prevention,anti-inflammation,pain management and administration of growth factors pla...Moderate or severe burns are potentially devastating injuries that can even cause death,and many of them occur every year.Infection prevention,anti-inflammation,pain management and administration of growth factors play key roles in the treatment of burn wounds.Novel therapeutic strategies under development,such as nanotherapeutics,are promising prospects for burn wound treatment.Nanotherapeutics,including metallic and polymeric nanoformulations,have been extensively developed to manage various types of burns.Both human and animal studies have demonstrated that nanotherapeutics are biocompatible and effective in this application.Herein,we provide comprehensive knowledge of and an update on the progress of various nanoformulations for the treatment of burn wounds.展开更多
文摘A novel molecular probe for identifying properties of supported transition metals and metal oxides catalysts was established.The catalytic mechanism of transition metals was proposed.
基金National Natural Science Foundation of China!No. 59774031
文摘Nickel was deposited by ac electrolysis deposition in the pores of the porous oxide film of Al produced by anodizing in phosphoric acid. Ultrafine rod-shaped Ni particles were formed in the pores. At the same time a film of Ni oxide precursor was developed on the surface of the porous oxide film. The Ni particles and the Ni oxide precursor were examined by SEM, TEM and X-ray diffraction. The thickness of the barrier layer of the porous oxide film was thin and it attributed to the formation of the metal particles, while the formation of the oxide precursor was associated with the surface pits which were developed in the pretreatment of Al.
基金supported by the Open Project Program of the State Key Laboratory of Trauma,Burn and Combined Injury,Third Military Medical University(No.SKLKF201905,SKLKF201918).
文摘Moderate or severe burns are potentially devastating injuries that can even cause death,and many of them occur every year.Infection prevention,anti-inflammation,pain management and administration of growth factors play key roles in the treatment of burn wounds.Novel therapeutic strategies under development,such as nanotherapeutics,are promising prospects for burn wound treatment.Nanotherapeutics,including metallic and polymeric nanoformulations,have been extensively developed to manage various types of burns.Both human and animal studies have demonstrated that nanotherapeutics are biocompatible and effective in this application.Herein,we provide comprehensive knowledge of and an update on the progress of various nanoformulations for the treatment of burn wounds.
