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Abstract:
The thermally induced topotactic transformation of organic polymeric semiconductors is achieved using similarity of the
chemical structures of the two C,N,H-containing materials. Namely, the oligomer of 3-aminotriazole-1,2,4 (OATA) is
transformed into an electronically modified graphitic carbon nitride (OATA-CN) upon heating at 550 °C. During the
transition, the flat band potential of the organic semiconductor is only slightly shifted from -0.11 eV to -0.06 eV, while the
optical band gap is significantly expanded from 1.8 eV to 2.2 eV. The advantage of the suggested approach is the
processability of the starting semiconductor combined with the minor morphology changes during the heat-treatment
that enable preservation of the original oligomer micro- and macrostructures in the resulting carbon nitrides. As
illustration, different OATA morphologies, including spherical nanoparticles, nanobarrels, nanowires and self-assembled
macrospheres and composite sheets are synthesized and then transformed into OATA-CN with the retention of
morphology. The surface area of the final carbon nitrides reaches 66 m2/g-1, without using any templates, auxiliary reagents
or post treatment. As a consequence, the photocatalytic activity of the obtained carbon nitrides in the visible light driven
hydrogen evolution is up to 5 times higher than measured for the reference bulk carbon nitride prepared by pyrolysis of
melamine.
