Hyemin KimAnyarat WatthanaphanitNagahiro SaitoNagoya UniversityMahidol University2018-12-212019-03-142018-12-212019-03-142017-07-03ACS Sustainable Chemistry and Engineering. Vol.5, No.7 (2017), 5842-5851216804852-s2.0-85021972124https://repository.li.mahidol.ac.th/handle/20.500.14594/42133© 2017 American Chemical Society. We have demonstrated a simple and green approach to synthesize hierarchical nanoporous MnO2 by applying plasma in a liquid precursor; the approach is named the "solution plasma process (SPP)." Three types of sugar, i.e., glucose, fructose, and sucrose, were used as inducers for the nanoporous MnO2 formation (hereafter called G-MnO2, F-MnO2, and S-MnO2). These were successfully synthesized within a few minutes (7-19 min) under ambient conditions. It was confirmed that the generated numerous reactive species (e.g., electrons, radicals, and ions) accelerated the reduction of MnO4-. The reaction rate as well as the physical and chemical features of resulting products were found to be related to the type of sugars. Their high surface areas (F-MnO2 (169.1 m2·g-1) > G-MnO2 (141.0 m2·g-1) > S-MnO2 (85.5 m2·g-1)) provided efficient capability for the adsorption of cationic dye molecules, i.e., methylene blue. The dye removal efficiencies of all samples were >99% for an initial dye concentration (C0) of 10 mg·L-1 within 2 min and >82% for C0 = 50 mg·L-1 within 30 min. We expect that the synthesis route presented in this study can be extended to the large-scale production of effective adsorbents and to find practical applications for the industrial and green infrastructure.Mahidol UniversityChemical EngineeringChemistryEnergyEnvironmental ScienceArticleSCOPUS10.1021/acssuschemeng.7b00560