.

Figure 4.. (a). Low magnification SEM of ms-g-C₃N₄, (b). high magnification SEM of ms-g-C₃N₄, (c). TEM image with SAED pattern (inset) of msg-C₃N₄, (d). K-rate plots for RhB, MB and MO photodegradation by g-C₃N₄ and ms-g-C₃N₄, (e). Stability test for 3 cycles with ms-g-C₃N₄, (f). SEM of tubular g-C₃N₄, (g). TEM of tubular g-C₃N₄, (h). Degradation kinetics of bulk g-C₃N₄ and tubular g-C₃N₄ for MB and MO photodegradation, (i). Cyclic stability of tubular g-C₃N₄ for 3 cycles, (j). Low magnification SEM of GCNNF, (k). High magnification SEM of GCNNF and (l). RhB photodeterioration with g-C₃N₄ and GCNNF, (m, n). TEM images of pg-C₃N₄ and (o). photocatalytic efficacy for phenol degradation with g-C₃N₄ and pg-C₃N₄, (p). SEM of AcTCN, (q). EIS revealing charge transfer resistance for AcTCN, (r). transient photo-current for AcTCN, (s). Parabens degradation efficacy by CN, TCN and AcTCN and (t). corresponding degradation kinetics. Reproduced from [58,96] [95] [101] and [102] with permission of Royal Society of Chemistry, American Chemical Society and Elsevier.