室温下钯-金属酞菁/分子筛复合催化剂催化甲烷选择氧化制甲醇

 在交换了 Fe2+, Co2+或 Cu2+的 Y 型分子筛上, 采用苯酐-尿素固相合成法制备了组装在 Y 型分子筛超笼中的金属酞菁类催化剂. 以 H2O2 为氧化剂, 考察了该金属酞菁/分子筛复合物上甲烷选择氧化制甲醇反应的性能, 并优化了反应条件. 结果表明, 在室温下, 金属酞菁/分子筛复合催化剂 FePc/Y, CoPc/Y 和 CuPc/Y 对 H2O2 氧化甲烷反应均有催化作用. 在这些复合物上进一步担载可催化 H2O2 原位生成的 Pd, Au 或 PdAu 贵金属, 并考察了其催化分子氧选择氧化甲烷反应的性能. 贵金属与金属酞菁/分子筛复合催化剂的偶合实现了室温下分子氧对甲烷的活化. 其中, Pd 与 CuPc/Y 间的协同效应使得室温下甲烷选择氧化反应活性有了较大提高.

Selective Oxidation of Methane to Methanol over Palla-dium-Metallophthalocyanine Composite Catalysts at Room Temperature

Iron(II), cobolt(II), and copper(II) phthalocyanines encapsulated inside the supercage of zeolite-Y were prepared by the in situ ligand synthesis method via heating the solid mixture of iron(II)-, cobolt(II)-, and copper(II)-exchanged NaY with phthalic anhydride and urea. Using hydrogen peroxide as the oxidant, the catalytic activity of these composite catalysts for methane selective oxidation was tested, and the reaction conditions were optimized. All these composite catalysts showed activity in selective ...