Corrigendum on: E‐ and H‐mode transition in a low pressure inductively coupled ammonia plasma

Abstract: The article by Aljaž Draškovič‐Bračun et al. (ppap.201700105), published online on 18 September 2017, contains a wrong version of Figure . This corrigendum is published to correct this.

“…Emission peaks could be observed in the range 200-1000 nm, which allowed to identify excited species contained in the gas phase (Figure 2a). The different identified peaks are located at 315 nm (N 2 * C 3 Q u !B 3 Q g 1-0), [22] 336 nm and 337 nm (NH°biradicals and N 2 * C 3 Q u !B 3 Q g 0-0, respectively), [22][23][24][25][26] at 357 nm (N 2 * C 3 Q !B 3 Q 0-1) [22,23,25,26] and 380 nm (N 2 * C 3 Q u !B 3 Q g 0-2). [22] This analysis confirmed the dissociation of ammonia in the plasma with the formation of NH°and excited neutrals N 2 *.…”

Direct Amination of Benzene with Ammonia by Flow Plasma Chemistry

“…Emission peaks could be observed in the range 200-1000 nm, which allowed to identify excited species contained in the gas phase (Figure 2a). The different identified peaks are located at 315 nm (N 2 * C 3 Q u !B 3 Q g 1-0), [22] 336 nm and 337 nm (NH°biradicals and N 2 * C 3 Q u !B 3 Q g 0-0, respectively), [22][23][24][25][26] at 357 nm (N 2 * C 3 Q !B 3 Q 0-1) [22,23,25,26] and 380 nm (N 2 * C 3 Q u !B 3 Q g 0-2). [22] This analysis confirmed the dissociation of ammonia in the plasma with the formation of NH°and excited neutrals N 2 *.…”

Direct Amination of Benzene with Ammonia by Flow Plasma Chemistry