A one-step molten salt electrochemical strategy was proposed to synthesize SiC nanoparticles from ultra-fine silicon dioxide/carbon(SiO_(2)/C)mixtures.The electrosynthesis process and physicochemical properties of the...A one-step molten salt electrochemical strategy was proposed to synthesize SiC nanoparticles from ultra-fine silicon dioxide/carbon(SiO_(2)/C)mixtures.The electrosynthesis process and physicochemical properties of the synthesized products were systematically analyzed via X-ray diffraction,electron microscopy,Raman spectroscopy and photoluminescence spectroscopy,etc.A combined chemical/electrochemical reaction,electrochemical deoxidation,and in-situ carbonization reaction mechanism was proposed to reveal the electrochemical synthesis process of SiC nanoparticles from SiO_(2)/C in molten CaCl_(2).The as-prepared SiC with particle size ranging from 8 to 14 nm possesses a polycrystalline structure.In addition,the SiC nanoparticles demonstrate obvious photoluminescence property due to the synergetic size effect and microstructural characteristics.展开更多
The crystal structure,physical,chemical and phase transition properties of trititanium pentoxide(Ti_(3)O_5)have aroused a broad range of research effort since the 1950s.Different crystalline forms(α,β,γ,δandλ)of ...The crystal structure,physical,chemical and phase transition properties of trititanium pentoxide(Ti_(3)O_5)have aroused a broad range of research effort since the 1950s.Different crystalline forms(α,β,γ,δandλ)of Ti_(3)O_5 exhibit various properties.Particularly,reversible phase transitions betweenλ-andβ-Ti_(3)O_5 have been attracting increasing research interest,which brings new potential applications of Ti_(3)O_5 materials in the field of energy and data storage.More recently,Ti_(3)O_5 materials have shown excellent performance in trace detection,microwave absorption and virus adsorption,which has expanded its application fields.Here,the essential properties of different crystal forms of Ti_(3)O_5 are described in detail.An intensive overview of Ti_(3)O_5 preparation methods and applications is comprehensively summarized.展开更多
基金the National Natural Science Foundation of China(Nos.52022054,51974181,52004157)the Shanghai Rising-Star Program,China(No.19QA1403600)+4 种基金the Shanghai Sailing Program,China(No.21YF1412900)and the Iron and Steel Joint Research Fund of National Natural Science Foundation of China and China Baowu Steel Group Corporation Limited(No.U1860203)the Program for Professor of Special Appointment(Eastern Scholar)at Shanghai Institutions of Higher Learning,China(No.TP2019041)the Shanghai Postdoctoral Excellence Program,China(No.2021160)the“Shuguang Program”supported by the Shanghai Education Development Foundation and the Shanghai Municipal Education Commission,China(No.21SG42).
文摘A one-step molten salt electrochemical strategy was proposed to synthesize SiC nanoparticles from ultra-fine silicon dioxide/carbon(SiO_(2)/C)mixtures.The electrosynthesis process and physicochemical properties of the synthesized products were systematically analyzed via X-ray diffraction,electron microscopy,Raman spectroscopy and photoluminescence spectroscopy,etc.A combined chemical/electrochemical reaction,electrochemical deoxidation,and in-situ carbonization reaction mechanism was proposed to reveal the electrochemical synthesis process of SiC nanoparticles from SiO_(2)/C in molten CaCl_(2).The as-prepared SiC with particle size ranging from 8 to 14 nm possesses a polycrystalline structure.In addition,the SiC nanoparticles demonstrate obvious photoluminescence property due to the synergetic size effect and microstructural characteristics.
基金financial supports from the National Natural Science Foundation of China(Nos.52004157,U1860203,52022054,51974181)the Shanghai Sailing Program,China(No.21YF1412900)+5 种基金the Shanghai Rising-Star Program,China(No.19QA1403600)the Shanghai Engineering Research Center of Green Remanufacture of Metal Parts,China(No.19DZ2252900)the Program for Professor of Special Appointment(Eastern Scholar)at Shanghai Institutions of Higher Learning,China(No.TP2019041)the“Shuguang Program”supported by the Shanghai Education Development Foundation and the Shanghai Municipal Education Commission,China(No.21SG42)the Independent Research and Development Project of State Key Laboratory of Advanced Special Steel,Shanghai Key Laboratory of Advanced Ferrometallurgy,Shanghai University,China(No.SKLASS 2020-Z10)the Science and Technology Commission of Shanghai Municipality,China(No.19DZ2270200).
文摘The crystal structure,physical,chemical and phase transition properties of trititanium pentoxide(Ti_(3)O_5)have aroused a broad range of research effort since the 1950s.Different crystalline forms(α,β,γ,δandλ)of Ti_(3)O_5 exhibit various properties.Particularly,reversible phase transitions betweenλ-andβ-Ti_(3)O_5 have been attracting increasing research interest,which brings new potential applications of Ti_(3)O_5 materials in the field of energy and data storage.More recently,Ti_(3)O_5 materials have shown excellent performance in trace detection,microwave absorption and virus adsorption,which has expanded its application fields.Here,the essential properties of different crystal forms of Ti_(3)O_5 are described in detail.An intensive overview of Ti_(3)O_5 preparation methods and applications is comprehensively summarized.
