CONSPECTUS:Nanoporous carbon(NPC)materials with various architectures have attracted considerable attention because of their distinctive properties and great application potential in environmental remediation,energy c...CONSPECTUS:Nanoporous carbon(NPC)materials with various architectures have attracted considerable attention because of their distinctive properties and great application potential in environmental remediation,energy conversion and storage,advanced sensors,and other applications.Traditional methods for the synthesis of NPCs,for example,the pyrolysis of natural products or polymers,template-assisted synthesis,and using deep-eutectic solvents,always involve toxic precursors and complex procedures,which greatly hinder further applications.Therefore,it is highly desirable to explore simple and feasible ways to prepare NPCs.Furthermore,to improve the performance and extend the application fields of NPCs,efficient strategies should be developed to regulate the components at the atomic level and construct multidimensional architectures.展开更多
基金This work was financially supported by the National Key Research and Development Program of China(no.2019YFC0408302)the National Natural Science Foundation of China(no.51878352)+4 种基金the JST-ERATO Yamauchi Materials Space-Tectonics Project(JPMJER2003)C.W.acknowledges the support of the Initiative Postdocs Supporting Program(BX20200167)the China Postdoctoral Science Foundation(no.2020M680070)This work was also performed in part at the Queensland node of the Australian National Fabrication Facility(ANFF-Q)a company established under the National Collaborative Research Infrastructure Strategy to provide nano-and microfabrication facilities for Australian researchers.
文摘CONSPECTUS:Nanoporous carbon(NPC)materials with various architectures have attracted considerable attention because of their distinctive properties and great application potential in environmental remediation,energy conversion and storage,advanced sensors,and other applications.Traditional methods for the synthesis of NPCs,for example,the pyrolysis of natural products or polymers,template-assisted synthesis,and using deep-eutectic solvents,always involve toxic precursors and complex procedures,which greatly hinder further applications.Therefore,it is highly desirable to explore simple and feasible ways to prepare NPCs.Furthermore,to improve the performance and extend the application fields of NPCs,efficient strategies should be developed to regulate the components at the atomic level and construct multidimensional architectures.
