A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Carbon Nanodot Composites: Fabrication, Properties, and Environmental and Energy Applications
This chapter describes the recent advances in the research on Carbon (C)‐dots focusing on their synthesis, properties, nanocomposites, and applications in catalysis, environmental and new energy. A variety of synthesis techniques already exist for producing C‐dots of different characteristics. Different strategies have also been developed for the fabrication of mesoporous silica particles with C‐dots; they differ both by the matrix synthesis and the method for entrapping the carbon dots in the porous silica particle. The effect of C‐dots is similar to that in supercapacitors, separating VO2 nanobelts from each other and avoiding the agglomeration as well as minimizing the dissolution of active materials. The combination of C‐dot doping and C‐dots‐based nanocomposites with other nanomaterials may open up new avenues to systematically study the effects of structural parameters and chemical compositions on the catalytic performance of the electrocatalysts, thus leading to fundamental insights and practical applications.
Carbon Nanodot Composites: Fabrication, Properties, and Environmental and Energy Applications
This chapter describes the recent advances in the research on Carbon (C)‐dots focusing on their synthesis, properties, nanocomposites, and applications in catalysis, environmental and new energy. A variety of synthesis techniques already exist for producing C‐dots of different characteristics. Different strategies have also been developed for the fabrication of mesoporous silica particles with C‐dots; they differ both by the matrix synthesis and the method for entrapping the carbon dots in the porous silica particle. The effect of C‐dots is similar to that in supercapacitors, separating VO2 nanobelts from each other and avoiding the agglomeration as well as minimizing the dissolution of active materials. The combination of C‐dot doping and C‐dots‐based nanocomposites with other nanomaterials may open up new avenues to systematically study the effects of structural parameters and chemical compositions on the catalytic performance of the electrocatalysts, thus leading to fundamental insights and practical applications.
Carbon Nanodot Composites: Fabrication, Properties, and Environmental and Energy Applications
Jiang, Xin (author) / Kang, Zhenhui (author) / Guo, Xiaoning (author) / Zhuang, Hao (author) / Huang, Hui (author) / Liu, Yang (author)
Novel Carbon Materials and Composites ; 223-273
2019-05-06
51 pages
Article/Chapter (Book)
Electronic Resource
English
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