Abstract Defect engineering is an important strategy to tune the surface physical and chemical properties of carbon nitride materials. Herein, a nitrogen-deficient mesoporous graphitic carbon nitride (ND-MCN) with a high… Click to show full abstract
Abstract Defect engineering is an important strategy to tune the surface physical and chemical properties of carbon nitride materials. Herein, a nitrogen-deficient mesoporous graphitic carbon nitride (ND-MCN) with a high specific surface area of 62.6 m2 g−1 was synthesized via hydrochloric acid-assisted thermal polycondensation of melamine and its potential application in hydrogen storage was investigated. Hydrochloric acid acting as activation agent can increase the specific surface area of carbon nitride, and introduce nitrogen-vacancy defects into the framework, leading to a stronger interaction between ND-MCN and hydrogen molecules. As a result, the ND-MCN shows a high hydrogen storage density of 6.39 × 10−3 wt%·g m−2 at 298 K under 20 bar.
               
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