The synthesis of ultrasmall metal nanoclusters(NCs) with high catalytic activities is of great importance for the development of clean and renewable energy technologies but remains a challenge. Here we report a facile...The synthesis of ultrasmall metal nanoclusters(NCs) with high catalytic activities is of great importance for the development of clean and renewable energy technologies but remains a challenge. Here we report a facile wet-chemical method to prepare ~1.0 nm Au Pd NCs supported on amine-functionalized carbon blacks. The Au Pd NCs exhibit a specific activity of 5.98 mA cm_(AuPd)^(-2)and mass activity of 5.25 A mg_(auPd)^(-1) for ethanol electrooxidation, which are far better than those of commercial Pd/C catalysts(1.74 mAcm_(AuPd)^(-2) and 0.54 A mg_(Pd)^(-1) ). For formic acid dehydrogenation, the Au Pd NCs have an initial turn over frequency of 49339 h^(-1) at 298 K without any additive, which is much higher than those obtained for most of reported Au Pd catalysts. The reported synthesis may represent a facile and low-cost approach to prepare other ultrasmall metal NCs with high catalytic activities for various applications.展开更多
作为能源密集型Haber-Bosch工艺合成氨的一种新兴替代品,电化学硝酸盐还原反应(NO_(3)RR)在可持续合成氨和废水处理方面受到了关注.然而,由于缺乏有效的电催化剂,NO_(3)RR目前仍然面临氨产率低和选择性差的问题.本文报道了通过脱合金法...作为能源密集型Haber-Bosch工艺合成氨的一种新兴替代品,电化学硝酸盐还原反应(NO_(3)RR)在可持续合成氨和废水处理方面受到了关注.然而,由于缺乏有效的电催化剂,NO_(3)RR目前仍然面临氨产率低和选择性差的问题.本文报道了通过脱合金法制备的纳米双模式孔Ru掺杂Cu催化剂作为NO_(3)RR的电催化剂,在-0.2 V versus RHE的电位下表现出29.63±0.74 mg h^(-1)mg_(cat.)^(-1)的超高氨产率与97.3%±2.5%的法拉第效率,优于大多数报道的催化剂.密度泛函理论计算表明,在Cu中掺杂Ru可以优化中间体的吸附能,降低NO_(3)RR速控步骤的能垒.此外,Ru原子可以促进H2O的吸附/解离,为含N中间体氢化为NH_(3)提供活性氢.这项工作为NO_(3)RR等过程进行高性能催化剂的合理设计提供了新的途径.展开更多
基金supported by the National Natural Science Foundation of China (51901083)the Fundamental Research Funds for the Central Universities。
文摘The synthesis of ultrasmall metal nanoclusters(NCs) with high catalytic activities is of great importance for the development of clean and renewable energy technologies but remains a challenge. Here we report a facile wet-chemical method to prepare ~1.0 nm Au Pd NCs supported on amine-functionalized carbon blacks. The Au Pd NCs exhibit a specific activity of 5.98 mA cm_(AuPd)^(-2)and mass activity of 5.25 A mg_(auPd)^(-1) for ethanol electrooxidation, which are far better than those of commercial Pd/C catalysts(1.74 mAcm_(AuPd)^(-2) and 0.54 A mg_(Pd)^(-1) ). For formic acid dehydrogenation, the Au Pd NCs have an initial turn over frequency of 49339 h^(-1) at 298 K without any additive, which is much higher than those obtained for most of reported Au Pd catalysts. The reported synthesis may represent a facile and low-cost approach to prepare other ultrasmall metal NCs with high catalytic activities for various applications.
基金supported by the Science and Technology Research Project of the Education Department of Jilin Province(47120)the National Natural Science Foundation of China(51901083)。
文摘作为能源密集型Haber-Bosch工艺合成氨的一种新兴替代品,电化学硝酸盐还原反应(NO_(3)RR)在可持续合成氨和废水处理方面受到了关注.然而,由于缺乏有效的电催化剂,NO_(3)RR目前仍然面临氨产率低和选择性差的问题.本文报道了通过脱合金法制备的纳米双模式孔Ru掺杂Cu催化剂作为NO_(3)RR的电催化剂,在-0.2 V versus RHE的电位下表现出29.63±0.74 mg h^(-1)mg_(cat.)^(-1)的超高氨产率与97.3%±2.5%的法拉第效率,优于大多数报道的催化剂.密度泛函理论计算表明,在Cu中掺杂Ru可以优化中间体的吸附能,降低NO_(3)RR速控步骤的能垒.此外,Ru原子可以促进H2O的吸附/解离,为含N中间体氢化为NH_(3)提供活性氢.这项工作为NO_(3)RR等过程进行高性能催化剂的合理设计提供了新的途径.
