电催化产过氧化氢?电化学法的转化率和选择性仍不理想,目前还无法取代现行乙基蒽醌法制备H2O2工艺(H2O2浓度为27.5-70 wt%,催化选择性大于97%),不知道应用前景怎么样。一些文献供参考2. Otsuka K, Ichiro Y. One Step Synthesis of Hydrogen Peroxide through Fuel Cell Reaction. Electrochimica Acta, 1990, 35(2):319-3223.? ? ? ? Yamanaka I, Hashimoto T, Otsuka K. Direct Synthesis of Hydrogen Peroxide ( 1 wt%) over the Cathode Prepared from Active Carbon and Vapor-Grown-Carbon-Fiber by a New H2-O2 Fuel Cell System. Chemistry Letters, 2002, 31(8):852-8534.? ? ? ? Yamanaka I. Direct Synthesis of H2O2 by a H2/O2 Fuel Cell. Catalysis Surveys from Asia, 2008, 12(2):78-875.? ? ? ? Yamanaka I, Onizawa T, Suzuki H, Hanaizumi N, Otsuka K. Electrocatalysis of Heat-Treated Mn-Porphyrin/Carbon Cathode for Synthesis of H2O2 Acid Solutions by H2/O2 Fuel Cell Method. Chemistry Letters, 2006, 35(12):1330-13316.? ? ? ? Lobyntseva E, Kallio T, Kontturi K. Bipolar Membranes in Forward Bias Region for Fuel Cell Reactors. Elec-trochimica Acta, 2006, 51(7):1165-11717.? ? ? ? Yamanaka I, Onizawa T, Takenaka S, Otsuka K. Direct and Continuous Production of Hydrogen Peroxide with 93% Selectivity Using a Fuel-Cell System. Angewandte Chemie-International Edition, 2003, 42(31):3653-36558.? ? ? ? Foller P C, Bombard R T. Processes for the Production of Mixtures of Caustic Soda and Hydrogen Peroxide via the Reduction of Oxygen. Journal of Applied Electrochemistry, 1995, 25(7):613-627,查看更多