A novel type of reduced graphene oxide(rGO)modified melamine sponges(rGS)filling with paraffin(rGS-pf)is developed for efficient solar-thermal conversion and heat management.The microstructures,filling and holding cap...A novel type of reduced graphene oxide(rGO)modified melamine sponges(rGS)filling with paraffin(rGS-pf)is developed for efficient solar-thermal conversion and heat management.The microstructures,filling and holding capacity of paraffin in porous rGS,solar-thermal energy conversion and energy harvesting efficiency of the prepared rGS-pf have been investigated systematically.The content of rGO nanosheets coated on the skeletons of rGS-pf is only 0.11%,while the loading content of paraffin in the rGS-pf is as high as 97.53%.Based on the solar-thermal conversion property of rGO nanosheets in the rGS-pf and the heat storage ability of paraffin in the rGS-pf,the proposed rGS-pf provides excellent performance for heat management.The efficiency of solar-thermal conversion could reach up to 92.5%.The thermo-regulation provided by the proposed rGS-pf is real-time,repeatable and long-term stable.The results in this study provide valuable guidance for developing functional materials for efficient solarthermal conversion and heat management.展开更多
The hierarchical design of mesoscale structures in droplet templates determines the structure and functionality of the resultant microparticles.In this review,we summarize recent progress on the control of microfluidi...The hierarchical design of mesoscale structures in droplet templates determines the structure and functionality of the resultant microparticles.In this review,we summarize recent progress on the control of microfluidic emulsion templates for the synthesis of polymeric microparticles with desired functionality and internal structure.We introduce strategies for controlling the morphology and interfacial stability of emulsion templates.These strategies are based on manipulation of the mesoscale structure of amphiphilic molecules and nanoparticles at emulsion-droplet interfaces.We also discuss strategies for controlling the mesoscale structure of microparticles,which involve manipulating the interfacial mass-transfer and chemical reactions during template synthesis.We provide insight on the use of these strategies for the rational design and fabrication of polymeric microparticles with predictable internal structures and functionality at the single-particle level.展开更多
基金support from the National Natural Science Foundation of China(22022810)the Program for Changjiang Scholars and Innovative Research Team in University(IRT15R48)Sichuan University(2020SCUNG112).
文摘A novel type of reduced graphene oxide(rGO)modified melamine sponges(rGS)filling with paraffin(rGS-pf)is developed for efficient solar-thermal conversion and heat management.The microstructures,filling and holding capacity of paraffin in porous rGS,solar-thermal energy conversion and energy harvesting efficiency of the prepared rGS-pf have been investigated systematically.The content of rGO nanosheets coated on the skeletons of rGS-pf is only 0.11%,while the loading content of paraffin in the rGS-pf is as high as 97.53%.Based on the solar-thermal conversion property of rGO nanosheets in the rGS-pf and the heat storage ability of paraffin in the rGS-pf,the proposed rGS-pf provides excellent performance for heat management.The efficiency of solar-thermal conversion could reach up to 92.5%.The thermo-regulation provided by the proposed rGS-pf is real-time,repeatable and long-term stable.The results in this study provide valuable guidance for developing functional materials for efficient solarthermal conversion and heat management.
基金The authors gratefully acknowledge support from the National Natural Science Foundation of China(91434202)the Program for Changjiang Scholars and Innovative Research Team in University(IRT15R48)State Key Laboratory of Polymer Materials Engi-neering(sklpme2014-1-01).
文摘The hierarchical design of mesoscale structures in droplet templates determines the structure and functionality of the resultant microparticles.In this review,we summarize recent progress on the control of microfluidic emulsion templates for the synthesis of polymeric microparticles with desired functionality and internal structure.We introduce strategies for controlling the morphology and interfacial stability of emulsion templates.These strategies are based on manipulation of the mesoscale structure of amphiphilic molecules and nanoparticles at emulsion-droplet interfaces.We also discuss strategies for controlling the mesoscale structure of microparticles,which involve manipulating the interfacial mass-transfer and chemical reactions during template synthesis.We provide insight on the use of these strategies for the rational design and fabrication of polymeric microparticles with predictable internal structures and functionality at the single-particle level.
