Modifying Carbon Nitride through Extreme Phosphorus Substitution
2019
A glassy carbon phosphonitride material with bulk chemical composition roughly approximating C3N3P was synthesized through a high-pressure, high-temperature process using a pure P(CN)3 molecular precursor. The resulting material (hereafter referred to as “HPHT-C3N3P”) was characterized using a variety of techniques, including X-ray scattering, pair distribution function analysis, 31P, 13C, 15N magic-angle spinning nuclear magnetic resonance spectroscopies; X-ray photoelectron spectroscopy, and Raman and IR spectroscopies. The measurements indicate that HPHT-C3N3P lacks long-range structural order with a local structure predominantly composed of a sp2, s-triazine-like network in which phosphorus atoms substitute for bridging nitrogen sites found in related C3N4 materials. The HPHT-C3N3P sample exhibits semiconducting properties, with electrical transport dominated by variable-range hopping. The high phosphorus content of HPHT-C3N3P (approaching 13 at. %) is associated with a major decrease in the optical a...
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