Electrochemical Biomass Upgrading Coupled with Hydrogen Production under Industrial‐Level Current Density

Abstract As promising hydrogen energy carrier, formic acid (HCOOH) plays an indispensable role in building a complete industry chain of a hydrogen economy. Currently, the biomass upgrading assisted water electrolysis has emerged as an attractive alternative for co‐producing green HCOOH and H 2 in a cost‐effective manner, yet simultaneously affording high current density and Faradaic efficiency (FE) still remains a big challenge. Here, the ternary NiVRu‐layered double hydroxides (LDHs) nanosheet arrays for selective glycerol oxidation and hydrogen evolution catalysis are reported, which yield an industry‐level 1 A cm −2 at voltage of 1.933 V, meanwhile showing considerable HCOOH and H 2 productivities of 12.5…

• NN
  National Natural Science Foundation of China

  Awards: 52072359, 21890750
• CA
  Chinese Academy of Sciences

  Award: XDB36030300
• YI
  Youth Innovation Promotion Association of the Chinese Academy of Sciences

  Award: Y202092
• UO
  University of Science and Technology of China
• RP
  Recruitment Program of Global Experts

  Award: WK2060000016
• FR
  Fundamental Research Funds for the Central Universities

  Awards: WK2340000094, WK2060000016
• YI
  Youth Innovation Promotion Association