A N/P codoped porous carbon/one-dimensional (1D) hollow tubular carbon heterojunction was successfully fabricated from waste biomass. 1D carbon microtube (CMT) originating from the inherent biological structure of enteromorpha prolifera (EP)… Click to show full abstract
A N/P codoped porous carbon/one-dimensional (1D) hollow tubular carbon heterojunction was successfully fabricated from waste biomass. 1D carbon microtube (CMT) originating from the inherent biological structure of enteromorpha prolifera (EP) was used for constructing the heterojunction with uniform heteroatom distribution and good conductivity by pyrolyzing the chitosan dihydrogen phosphate protic salt (CDPPS)-coated CMT, in which CMT was used as conductive substrate and CDPPS as carbon, nitrogen, phosphorus sources, and “soft” activating agent. The optimized heterojunction (NPEPC-6-900) possesses a large specific surface area (1220 m2 g–1) and high content of heteroatom functionalities (4.50 at. % N and 2.36 at. % P). A similar effect also occurs on cotton with analogous 1D hollow tubular architecture structure, and the sample presents a specific surface area (766 m2 g–1) and chemical composition (3.75 at. % N and 1.34 at. % P). Benefiting from the distinctive structural feature and desirable heteroatom ...
               
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