Abstract
Low selectivity is one of the key problems which limit the application of plasma in chemical fields. High selectivity and concentration of H2O2 are critical in the direct synthesis of H2O2. Herein, we report that the selectivity of the H2/O2 plasma reaction can be controlled by specific energy input (SEI), i.e. low SEI leads to high H2O2 selectivity. When the SEI was fixed at 2.08J/ml, the H2O2 selectivity reached 91% with 17% O2 conversion, and a H2O2 solution with high concentration (90wt.%) was achieved. Plasma diagnostics and theoretical calculation results indicate that, low SEI results in low electron density, which leads to high H2O2 selectivity but low O2 conversion. Furthermore, the collision cross sections of H2 and O2 molecules with electrons indicate that the H2/O2 plasma, with average electron energy of 1–1.5eV, can synthesize H2O2 with high selectivity and high O2 conversion.
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