While two-dimensional layered nanomaterials including transition metal oxides and transition metal dichalcogenides have been widely researched because of their unique electronic and optical properties,they still have ...While two-dimensional layered nanomaterials including transition metal oxides and transition metal dichalcogenides have been widely researched because of their unique electronic and optical properties,they still have some limitations.To overcome these limitations,transition metal oxides and transition metal dichalcogenides based nanocomposites have been developed using various methods and have exhibited superior properties.In this paper,we introduce the photodeposition method and review the photodeposition of metal nanoparticles on the surface of transition metal oxide and transition metal dichalcogenides.Their current applications are also explained,such as photocatalysis,hydrogen evolution reaction,surface enhanced Ramanscattering,etc.This approach for nanocomposites has potential for future research areas such as photocatalysis,hydrogen evolution reaction,surface enhanced Raman scattering,and other applications.This approach for nanocomposite has the potential for future research areas.展开更多
Carbon nanotube(CNT)has excellent properties as a coating material.However,most methods for CNT coating have limitations.Recent studies have shown that polydopamine(PDA)can be used as a good and eco-friendly corrosion...Carbon nanotube(CNT)has excellent properties as a coating material.However,most methods for CNT coating have limitations.Recent studies have shown that polydopamine(PDA)can be used as a good and eco-friendly corrosion resistance coating material.However,the effect of PDA/CNT nanocomposite coating on the corrosion mitigation property of carbon steel(CS)remains unknown.Therefore,the objective of this study was to determine the effect of PDA/CNT nanocomposite coating on the corrosion mitigation property of carbon steel(CS).A dopamine(DA)/CNT composite was first synthesized.CNT length was controlled by sonication.Based on dynamic light scattering,field emission transmission electron microscopy,and atomic force microscopy analyses,average lengths of CNTs in long and short DA-CNTs were 500 and 50 nm,respectively.Carbon steel specimens were subjected to corrosion resistance analysis using electrochemical methods.Results of electrochemical tests showed that corrosion resistance of CS coated with PDA and PDA/CNTs were dramatically higher than those of bare CS.This corrosion mitigation was attributed to two mechanisms.First,PDA decreased the corrosion rate due to the generation of a thin and dense layer on the surface.Second,CNTs suppressed the cathodic partial reaction due to oxygen adsorption at defect sites of CNTs.展开更多
基金KK and JR acknowledge the financial support from the Young Investigator Award program through the National Research Foundation(NRF)of Koreafunded by the Ministry of Science,ICT&Future Planning of Republic of Korea(NRF-2017R1C1B2011750&NRF-2015R1C1A1A02036464).
文摘While two-dimensional layered nanomaterials including transition metal oxides and transition metal dichalcogenides have been widely researched because of their unique electronic and optical properties,they still have some limitations.To overcome these limitations,transition metal oxides and transition metal dichalcogenides based nanocomposites have been developed using various methods and have exhibited superior properties.In this paper,we introduce the photodeposition method and review the photodeposition of metal nanoparticles on the surface of transition metal oxide and transition metal dichalcogenides.Their current applications are also explained,such as photocatalysis,hydrogen evolution reaction,surface enhanced Ramanscattering,etc.This approach for nanocomposites has potential for future research areas such as photocatalysis,hydrogen evolution reaction,surface enhanced Raman scattering,and other applications.This approach for nanocomposite has the potential for future research areas.
基金supported by grants(Basic Science Research Program:NRF-2017R1C1B2011750Fostering Next-generation Researchers in Engineering Program:NRF-2017H1D8A2031628Fostering Core Leaders of the future Basic Science Program/Global Ph.D.Fellowship Program:NRF-2018H1A2A1062418)of the National Research Foundation(NRF)funded by the Ministry of Science,ICT and Future Planning,Republic of Korea.
文摘Carbon nanotube(CNT)has excellent properties as a coating material.However,most methods for CNT coating have limitations.Recent studies have shown that polydopamine(PDA)can be used as a good and eco-friendly corrosion resistance coating material.However,the effect of PDA/CNT nanocomposite coating on the corrosion mitigation property of carbon steel(CS)remains unknown.Therefore,the objective of this study was to determine the effect of PDA/CNT nanocomposite coating on the corrosion mitigation property of carbon steel(CS).A dopamine(DA)/CNT composite was first synthesized.CNT length was controlled by sonication.Based on dynamic light scattering,field emission transmission electron microscopy,and atomic force microscopy analyses,average lengths of CNTs in long and short DA-CNTs were 500 and 50 nm,respectively.Carbon steel specimens were subjected to corrosion resistance analysis using electrochemical methods.Results of electrochemical tests showed that corrosion resistance of CS coated with PDA and PDA/CNTs were dramatically higher than those of bare CS.This corrosion mitigation was attributed to two mechanisms.First,PDA decreased the corrosion rate due to the generation of a thin and dense layer on the surface.Second,CNTs suppressed the cathodic partial reaction due to oxygen adsorption at defect sites of CNTs.
