Wei Luo

Summary

Affiliation: Wuhan University
Country: China

Publications

  1. Zuo Q, Cheng G, Luo W. A reduced graphene oxide/covalent cobalt porphyrin framework for efficient oxygen reduction reaction. Dalton Trans. 2017;46:9344-9348 pubmed publisher
    ..05rGO catalyst exhibits excellent oxygen reduction reaction (ORR) activity with superior long-term stability and methanol tolerance. ..
  2. Du C, Liao Y, Hua X, Luo W, Chen S, Cheng G. Amine-borane assisted synthesis of wavy palladium nanorods on graphene as efficient catalysts for formic acid oxidation. Chem Commun (Camb). 2014;50:12843-6 pubmed publisher
    ..Thanks to the unique structure and strong interaction with graphene, the as-synthesized Pd nanorods supported on graphene exhibit much enhanced electrocatalytic activity towards formic acid oxidation as compared with Pd nanoparticles. ..
  3. Wen L, Du X, Su J, Luo W, Cai P, Cheng G. Ni-Pt nanoparticles growing on metal organic frameworks (MIL-96) with enhanced catalytic activity for hydrogen generation from hydrazine at room temperature. Dalton Trans. 2015;44:6212-8 pubmed publisher
  4. Fu L, Yang F, Cheng G, Luo W. Ultrathin Ir nanowires as high-performance electrocatalysts for efficient water splitting in acidic media. Nanoscale. 2018;10:1892-1897 pubmed publisher
    ..In view of the excellent electrochemical water splitting performance and superior stability in acidic electrolytes, we believe that the obtained Ir wavy nanowires could be potential alternative catalysts toward PEM water electrolysis. ..
  5. Zuo Q, Zhao P, Luo W, Cheng G. Hierarchically porous Fe-N-C derived from covalent-organic materials as a highly efficient electrocatalyst for oxygen reduction. Nanoscale. 2016;8:14271-7 pubmed publisher
    ..In particular, the resulting FeNC-900 exhibits a much higher stability and methanol tolerance than those of Pt/C, which makes it among the best non-precious catalysts ever reported for ORR. ..
  6. Du Y, Cheng G, Luo W. Colloidal synthesis of urchin-like Fe doped NiSe2 for efficient oxygen evolution. Nanoscale. 2017;9:6821-6825 pubmed publisher