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W4319302881 startingPage "1547" @default.
W4319302881 abstract "Computational investigation of the structural and photophysical properties of polymeric carbon nitride (PCN) materials can help to establish understanding-driven material optimization strategies. However, the plethora of structural motifs found in synthesized PCNs complicates atomistic simulations. Performing hybrid DFT studies, we systematically investigate formation energy trends and optical properties of PCNs as a function of dimensionality. Thermochemical calculations predict that a mixture of structural motifs including the melon string structure, poly(heptazine imide), and g-C3N4 motifs is stable under typical synthetic conditions. Lateral condensation reduces the bandgap while out-of-plane corrugation increases both stability and the bandgap. The key result of this work is that already small domains of strongly condensed PCN embedded in a less condensed framework can give rise to desirable optical properties. This result reconciles conflicting literature reports indicating that the calculated bandgap of the thermodynamically favorable melon structure is too large compared to experiments, while the g-C3N4 structure, for which bandgap calculations are in better agreement with experiments, does not agree with the measured chemical composition of synthesized PCNs. Finally, we postulate a new computational model for PCNs which combines the most important structural motifs and for which we calculate a bandgap of ca. 2.9 eV." @default.
W4319302881 created "2023-02-07" @default.
W4319302881 creator A5004625916 @default.
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W4319302881 creator A5083533400 @default.
W4319302881 date "2023-02-06" @default.
W4319302881 modified "2023-10-18" @default.
W4319302881 title "Structure and Optical Properties of Polymeric Carbon Nitrides from Atomistic Simulations" @default.
W4319302881 cites W1480344782 @default.
W4319302881 cites W1485352641 @default.
W4319302881 cites W1583942739 @default.
W4319302881 cites W1966805111 @default.
W4319302881 cites W1972636351 @default.
W4319302881 cites W1978342043 @default.
W4319302881 cites W1979544533 @default.
W4319302881 cites W1981368803 @default.
W4319302881 cites W1990272597 @default.
W4319302881 cites W1994880295 @default.
W4319302881 cites W1998105507 @default.
W4319302881 cites W1998456255 @default.
W4319302881 cites W2000500972 @default.
W4319302881 cites W2007395042 @default.
W4319302881 cites W2008423326 @default.
W4319302881 cites W2010218325 @default.
W4319302881 cites W2017568048 @default.
W4319302881 cites W2021436276 @default.
W4319302881 cites W2036113194 @default.
W4319302881 cites W2049060108 @default.
W4319302881 cites W2049078565 @default.
W4319302881 cites W2055015010 @default.
W4319302881 cites W2060954649 @default.
W4319302881 cites W2067718414 @default.
W4319302881 cites W2071300388 @default.
W4319302881 cites W2079105963 @default.
W4319302881 cites W2083222334 @default.
W4319302881 cites W2087698390 @default.
W4319302881 cites W2088331368 @default.
W4319302881 cites W2092157292 @default.
W4319302881 cites W2092332261 @default.
W4319302881 cites W2096309593 @default.
W4319302881 cites W2096747776 @default.
W4319302881 cites W2103787358 @default.
W4319302881 cites W2117059246 @default.
W4319302881 cites W2129589243 @default.
W4319302881 cites W2146683198 @default.
W4319302881 cites W2150399639 @default.
W4319302881 cites W2160605127 @default.
W4319302881 cites W2167821865 @default.
W4319302881 cites W2170714139 @default.
W4319302881 cites W2253812227 @default.
W4319302881 cites W2334784667 @default.
W4319302881 cites W2340212768 @default.
W4319302881 cites W2512821244 @default.
W4319302881 cites W2530520913 @default.
W4319302881 cites W2542719584 @default.
W4319302881 cites W2586073801 @default.
W4319302881 cites W2588812209 @default.
W4319302881 cites W2600596882 @default.
W4319302881 cites W2607840123 @default.
W4319302881 cites W2617038631 @default.
W4319302881 cites W2678506647 @default.
W4319302881 cites W2739439285 @default.
W4319302881 cites W2791554866 @default.
W4319302881 cites W2806535432 @default.
W4319302881 cites W2910820311 @default.
W4319302881 cites W2915832427 @default.
W4319302881 cites W2954721102 @default.
W4319302881 cites W2968496472 @default.
W4319302881 cites W2972425554 @default.
W4319302881 cites W2982424398 @default.
W4319302881 cites W2999176378 @default.
W4319302881 cites W3004793234 @default.
W4319302881 cites W3081442021 @default.
W4319302881 cites W3109493135 @default.
W4319302881 cites W3109881621 @default.
W4319302881 cites W3115067172 @default.
W4319302881 cites W3128254126 @default.
W4319302881 cites W3131420899 @default.
W4319302881 cites W3135535624 @default.
W4319302881 cites W3163986308 @default.
W4319302881 cites W3165667559 @default.
W4319302881 cites W3188210414 @default.
W4319302881 cites W3202471019 @default.
W4319302881 cites W3217576004 @default.
W4319302881 cites W4205314123 @default.
W4319302881 cites W4224999731 @default.
W4319302881 cites W4232072350 @default.
W4319302881 cites W4281739917 @default.
W4319302881 cites W4282916807 @default.
W4319302881 cites W4289522018 @default.
W4319302881 cites W832976576 @default.
W4319302881 doi "https://doi.org/10.1021/acs.chemmater.2c02843" @default.
W4319302881 hasPublicationYear "2023" @default.
W4319302881 type Work @default.
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