李彬   

李彬,博士毕业于复旦大学化学,师从赵东元院士,博士毕业后在新加坡南洋理工大学继续博士后的研究工作。主要从事新型多孔材料的合成与应用,尤其是在微介孔材料的绿色合成、性能调控以及在催化领域中形成了独特的思想见解,取得了一系列有影响力的研究成果。(1)发展了沸石模板制备多孔缺陷碳的方法,并在氯碱工业析氯反应中表现出优异的催化性能。(2)提出了功能纳米颗粒诱导沸石从外到里重结晶的机理,为设计高效催...Detials

Advanced Ultrathin RuPdM (M = Ni, Co, Fe) Nanosheets Electrocatalyst Boosts Hydrogen Evolution

Release time:2023-10-19  Hits:

  • Key Words:Ruthenium alloys;Durability - Efficiency - Electrocatalysts - Electronic structure - Hydrogen - Nanosheets - Palladium alloys - Precious metals
  • Abstract:The hydrogen evolution reaction (HER) is one of the most significant reactions in the electrolysis water process, and electrocatalysts which possess high mass activity and excellent stability are the most important driving factors to improve the efficiency of HER. As for the efficient commercially electrocatalyst, Pt/C is limited in development because of its high cost. Therefore, the study of non-Pt high-efficiency catalysts is particularly important at this moment. Here, we creatively report for the first time a kind of RuPdM (M= Ni, Co, Fe) ultrathin nanosheets (NSs), which exhibit extraordinary electrochemical properties for HER under alkaline conditions. The overpotential of optimized trimetallic Ru<inf>38</inf>Pd<inf>34</inf>Ni<inf>28</inf> ultrathin NSs is only 20 mV (10 mA cm<sup>-2</sup>), and the mass activity reaches 6.15 A mg<sup>-1</sup><inf>noble metal</inf> at-0.07 V vs RHE. It can be compared to Pt-based electrocatalysts, which have the highest mass activity currently reported. The durability tests also prove that the stability of the electrocatalyst is outstanding. DFT calculations disclose that the flexible modulation of electronic structures of RuPd ultrathin NSs is achieved by utilizing the additional 3d transition metals Fe, Co, and Ni. In particular, the Ni-3d bands act as the continuous electron-supply center for Ru to ensure an efficient electron transfer toward the adsorbates. Meanwhile, the stable Pd sites are critical for coupling the O-2pπorbital in the initial H<inf>2</inf>O splitting with a facile barrier. This work will open up a new era of non-Pt materials for alkaline hydrogen evolution toward practical application.<br/> Copyright © 2019 American Chemical Society.
  • Volume:5
  • Issue:12
  • Translation or Not:no