Publication | Closed Access
Room-temperature Synthesis of a Covalent Organic Framework with Enhanced Surface Area and Thermal Stability and Application to Nitrogen-doped Graphite Synthesis
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Citations
29
References
2015
Year
Materials ScienceHigh Thermal StabilityChemical EngineeringGraphene NanomeshesEngineeringCarbon-based MaterialRoom-temperature SynthesisOrganic Material ChemistryCovalent Bonded FrameworkCovalent Organic FrameworkGrapheneOrganic ChemistryChemistryMetal-organic PolyhedronMetal-organic FrameworksFunctional MaterialsThermal StabilityOrganic-inorganic Hybrid Material
We report room-temperature synthesis of a covalent organic framework (COF) using the combination of benzene-1,3,5-tricarbaldehyde and 1,4-phenylenediamine. The method is quite simple and the obtained COF was revealed to have a high surface area and high thermal stability due to its high crystallinity compared to that of the COF synthesized by a conventional solvothermal synthetic method using the same monomer combination. We also synthesized a nitrogen-doped graphite based on carbonization of the COF.
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