108 / 2023-07-20 15:12:24
Fabricating the recyclable magnetic photo-nanocatalyst and its application on biohydrogen production
magnetic nanoparticles,TbFeO3,Bio-H2
Abstract Accepted
Ur RahmanMuneeb / Henan Agricultural University
ShahzaibMuhammad / Henan Agricultural University
UsmanMuhammad / Henan Agricultural University
NadeemFaiqa / Henan Agricultural University
RamzanHina / Henan Agricultural University
TahirNadeem / Henan Agricultural University
The optimistic impact of orthoferrite nanoparticles (NPs) on photo fermentation for biohydrogen production have been increased, and the mechanism still requires to be investigated more. Low hydrogen (H2) yield often occurs, being mainly due to H2 generation pathway shift. In present study, Terbium-iron oxide nanoparticles (TbFeO3 NPs) were synthesized to investigate their impacts on bioH2 production. The highest H2 yield of 319.34 mL/g glucose was found at 100 mg/L of TbFeO3, being 47.6% higher than that from the control (225.84 mL/g glucose). The relative abundance of PNSB increased from 54.2% to 66.43%. The large specific surface area of TbFeO3 provided appropriate sites for the colonization of PNSB and enhanced the bacterial approach to nutrients. Additionally, the Tb3+ gradually released from TbFeO3 NPs raised microbial transmembrane transport capacity, promoting glycolytic efficacy and Fe availability, though improving hydrogenase content, and shifting the bioH2 evolution to butyrate pathway for more H2. This provides the novelty for biochemical utilization of Tb and new insights into the improved H2 yield amended with TbFeO3.

 
Important Date
  • Conference Date

    Jul 28

    2023

    to

    Jul 31

    2023

  • Jul 21 2023

    Draft paper submission deadline

  • Jul 31 2023

    Registration deadline

Sponsored By
Northwest A&F University