In situ regulating intimately connected heterostructure by decomposition of solid solution oxides toward high-efficient water oxidation

Heterogeneous interfaces produced by interdomain interactions on a nanoscale performs a crucial role in boosting the properties of an electrocatalyst toward oxygen evolution reaction(OER)process.Herein,a series of dual-phase electrodes with intimately connected heterointerfaces are prepared by in situ decomposing solid solution oxide of Ni_(x)Co_(y)Fe_(100-x-y)O,which grew on Ni foam massively via an ultrafast combustion approach.Particularly,with high-reaction kinetics caused by the reduction treatment at 450℃,the less electronegative Fe and Co are more oxyphilic than Ni,which facilitated their co-exsolution and formation of CoFe_2O_4/NiO oxide with enriched oxygen vacancies.Benefiting from the nanoporous framework,heterojunction structure,and oxygen defects,the self-supporting electrodes present rapid charge/mass transmission and provide abundant active sites for OER.The optimized sample(R-SNCF4.5)shows low overpotentials of 226 and 324 mV at 10 and100 mA·cm^(-2),a small Tafel slope(46.7 mV·dec^(-1)),and excellent stability.The assembled R-SNCF4.5//Pt/C/NF electrolyzer demonstrates continuous electrolysis over 50 h at a current density of 10 mA·cm^(-2),under 1.51 V.Density functional theory(DFT)calculations verify that the strong electronic modulation plays a critical part in the CoFe_2O_4/NiO hybrid by lowering the energy barriers for the ratedetermining steps,and Fe sites are the most active OER sites.

三元系ZrO_2固溶体的XPS和XRD研究

对CeO_2－Mgo－ZrO_2系固溶体的XPS和XRD研究结果表明：在1700℃烧结和随后的1200℃处理过程中，Ce4十被还原成Ce3＋．离子半径的差别使立方相的晶格常数增大，氧的结合能增大，镁的结合能减小热处理时，Ce离子在MgO编析后仍稳定存在于ZrO2晶格中，使立方ZrO2发生与传统Mg－PSZ不同的分解反应：c-ZrO2→c′－ZrO2＋t－ZrO2＋MgO．

铈锆固溶体的制备及其负载金催化剂的CO氧化性能

以共沉淀法制备的不同铈锆原子比的CexZr1-xO2为载体,采用直接阴离子交换法(DAE)制备了Au/CexZr1-xO2催化剂。通过X射线衍射、N2物理吸附和H2程序升温还原等技术分别对载体和催化剂进行了表征,同时评价了Au/CexZr1-xO2催化剂的CO氧化活性。结果表明,以硝酸铈铵为前驱体可制备单相铈锆固溶体,Zr的加入提高了CeO2的比表面积,改善了其孔结构。负载Au有利于促进铈锆固溶体的还原。在Au/CexZr1-xO2系列催化剂中,Au/Ce0.75Zr0.25O2催化剂表现出最佳的CO氧化性能。

中低温固相反应法制备纳米级铈锆复合氧化物固溶体

以碳酸铈、碳酸锆、草酸为原料,用中低温固相反应法制备了纳米级铈锆复合氧化物(CexZr1-xO2)。通过XRD、TEM、BET等测试手段对产物进行了表征,结果表明:所得产物为单一的立方晶系固溶体,平均粒径<40nm,比表面积达98.94m2/g。采用中低温固相反应法制备纳米级铈锆复合氧化物无需溶剂、无废液、节能,是一种绿色化学新工艺。

Ce0.25Zr0.75O2固溶体的制备及其电化学合成氨催化性能

通过共沉淀法合成了四方相Ce0.25Zr0.75O2固溶体,采用X射线粉末衍射仪(XRD)、扫描电子显微镜(SEM)和透射电子显微镜(TEM)表征了固溶体的结构,并以氮气和水为原料,在室温、0.1 mol/L Na2SO4电解质中研究了固溶体的电化学催化合成氨性能。结果表明,Ce0.25 Zr0.75O2表现出了优异的电化学氮还原催化性能,在-0.6 V(vs.Ag/AgCl)时法拉第效率最高,达到64%,此时氨合成速率为7.3×10^-11 mol/(s·cm^2);在-0.7V(vs.Ag/AgCl)时,氨合成速率最高,为1.03×10^-10 mol/(s·cm^2),此时法拉第效率为42.2%。这可能与Ce0.25Zr0.75O2固溶体的四方相结构、晶格结构的变化及形成的高度缺陷的结构有关;另外,Ce0.25Zr0.75O2还能有效抑制析氢副反应进行,从而提高其法拉第效率。

铈锆固溶体催化剂的研究进展

铈锆固溶体有着良好的储氧能力,被广泛的运用在催化行业中,其中主要的应用有选择性氧化一氧化碳催化剂,汽车三效催化剂,催化燃烧VOCs催化剂,水煤气转化反应催化剂。文章分析了近年来铈锆固溶体催化剂在上述方向的研究应用进展,并对铈锆固溶体催化剂的前景提出了展望。