Personal Details

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Dr. GE Xiaoming

Scientist I

Staff

-

65011852

gex@imre.a-star.edu.sg

2 Fusionopolis Way. Innovis, #08-03, Singapore 138634


Research Details


Current: metal-air batteries, lithium-ion batteries, oxide materials, and energy storage
Previous: fuel cells and metallic glasses

Electrocatalysis

Electrochemical testing and analysis

Battery assembly, testing and analysis

Synthesis of oxide materials and carbonaceous materials 

Materials characterization techniques 

Mathematical modelling 


• October 2012- Current
Scientist I, Institute of Materials Research and Engineering

•May 2012 - September 2012
Research Fellow, Energy Research Institute at NTU (ERI@N), Nanyang Technological University

•September 2011 - April 2012
Research Associate, Energy Research Institute at NTU (ERI@N), Nanyang Technological University

Ph.D., Nanyang Technological University (2007-2012)
M.E. (Materials Science and Engineering), Zhejiang University (2005-2007)
B.E. (Non-metallic Inorganic Materials), Yanshan Univerity (2000-2004)
Dokiya Symposium Fund of the Electrochemical Society (2011)
PhD Research Scholarship at NTU (2007–2011)
Member, the Electrochemical Society (2009-current)
Member, the International Society of Electrochemistry (2011-current)
e-Member, Royal Society of Chemistry (2012-current)

Member, Singapore National Institute of Chemistry (2013-current)


Journal articles:
  • X. M. Ge, A. Sumboja, D. Wuu, T. An, B. Li, F. W. T. Goh, T. S. A. Hor,* Y. Zong,* Z. L. Liu,* “Oxygen reduction in alkaline media: from mechanisms to recent advances of catalysts”, ACS Catalysis, 5 (2015), 4643-4667.
  • X. M. Ge, F. W. T. Goh, B. Li, T. S. A. Hor,* J. Zhang, P. Xiao, X. Wang, Y. Zong,* Z. L. Liu,* “Efficient and durable oxygen reduction and evolution of a hydrothermally synthesized La(Co0.55 Mn0.45)0.99O3-δ nanorod/graphene hybrid in alkaline media”, Nanoscale, 7 (2015), 9046-9054.
  • X. M. Ge, B. Li, D. Wuu, A. Sumboja, T. An, T. S. A. Hor,* Y. Zong,* Z. L. Liu,* “Nanostructured perovskite LaCo1-xMnxO3 as bifunctional catalysts for rechargeable metal-air batteries”, Journal of Molecular and Engineering Materials, 3 (2015), 1540006.
  • A. Sumboja, X. M. Ge, F. W. T. Goh, B. Li, D. S. Geng, T. S. A. Hor,* Y. Zong,* Z. L. Liu,* “Manganese oxide catalyst grown on carbon paper as an air cathode for high-performance rechargeable zinc-air batteries”, ChemPlusChem, 80 (2015), 1341-1346.
  • P. Xiao, X. M. Ge, H. B. Wang, Z. L. Liu, A. Fisher, X. Wang*  “Novel molybdenum carbide-tungsten carbide composite nanowires and their electrochemical activation for efficient and stable hydrogen evolution”, Advanced Functional Materials, 25 (2015), 1520-1526.
  • T. An, X. M. Ge, T. S. A. Hor,* F. W. T. Goh, D. S. Geng, G. J. Du, Y. Zhan, Z. L. Liu*, Y. Zong,*  “Co3O4 nanoparticles grown on N-doped Vulcan carbon as a scalable bifunctional electrocatalyst for rechargeable zinc-air batteries”, RSC Advances, 92 (2015), 75773-75780.
  • B. Li, X. M. Ge, F. W. T. Goh, T. S. A. Hor,* D. S. Geng, G. J. Du, Z. L. Liu*, J. Zhang, X. G. Liu, Y. Zong,*  “Co3O4 nanoparticles decorated carbon nanofiber mat as binder-free air-cathode for high performance rechargeable zinc-air batteries”, Nanoscale, 7 (2015), 1830-1838.
  • X. M. Ge, Y. Y. Liu, F. W. T. Goh, T. S. A. Hor,* Y. Zong, P. Xiao, Z. Zhang, S. H. Lim, B. Li, X. Wang, Z. L. Liu*, “Dual-phase spinel MnCo2O4 and spinel MnCo2O4/nanocarbon hybrids for electrocatalytic oxygen reduction and evolution”, ACS Applied Materials & Interfaces, 6 (2014), 12684-12691.
  • P. Xiao, M. A. Sk, L. Thia, X. M. Ge, R. J. Lim, J. Y. Wang, K. H. Lim, X. Wang*  “Molybdenum phosphide as an efficient electrocatalyst for the hydrogen evolution reaction”, Energy & Environmental Science, 7 (2014), 2624-2629.
  • F. W. T. Goh, Z. L. Liu,* T. S. A. Hor,* J. Zhang, X. M. Ge,* Y. Zong, A. S. Yu, W. Khoo, “A near-neutral chloride electrolyte for electrically rechargeable zinc-air batteries”, Journal of the Electrochemical Society, 161 (2014), A2080-A2086.
  • F. W. T. Goh, Z. L. Liu,* X. M. Ge,* Y. Zong, G. J. Du, T. S. A. Hor,* “Ag nanoparticle-modified MnO2 nanorods catalyst for use as an air electrode in zinc-air battery”, Electrochimica Acta, 114 (2013), 598-604.
  • Y. Yan, X. M. Ge, Z. L. Liu, J. Y. Wang, J. M. Lee, X. Wang*  “Facile synthesis of low crystalline MoS2 nanosheet-coated CNTs for enhanced evolution reaction”, Nanoscale, 5 (2013), 7768-7771.
  • X. M. Ge,* S. H. Chan,* Q. L. Liu, Q. Sun, “Solid oxide fuel cell anode materials for direct hydrocarbon utilization”, Advanced Energy Materials, (2012), 1156-1181.
  • P. Xiao, X. M. Ge, L. Zhang, J. Y. Wang, X. Wang* “H2 and CH4 oxidation on GDC infiltrated SrMoO3-YSZ anode in solid oxide fuel cell”, International Journal of Hydrogen Energy, (2012), accepted.
  • C. J. Fu,* X. M. Ge, S. H. Chan, Q. L. Liu, “Fabrication and characterization of Anode-supported low-temperature SOFC based on Gd-doped ceria electrolyte”, Fuel Cells, 12 (2012) 450-456.
  • X. M. Ge,* Y. N. Fang, S. H. Chan,* “Design and optimisation of composite electrodes in solid oxide cells”, Fuel Cells, 12 (2012) 61-76. [This paper has been selected by Renewable Energy Global Innovations as a Key Scientific Article “being of especial interest to the Energy sector” on April, 2012.]
  • C. J. Fu,* S. H. Chan,* X. M. Ge, Q. L. Liu, G. Pasciak, “A promising Ni-Fe bimetallic anode for intermediate-temperature SOFC based on Gd-doped ceria electrolyte”, International Journal of Hydrogen Energy, 36 (2011) 13727-13734.
  • X. M. Ge, L. Zhang, Y. N. Fang, J. Zeng, S. H. Chan,* “Robust solid oxide cells for alternate power generation and carbon conversion”, RSC Advances, 1 (2011) 715-724.
  • X. M. Ge,* C. J. Fu, S. H. Chan,* “Double layer capacitance of anode/solid-electrolyte interfaces”, Physical Chemistry Chemical Physics, 13 (2011) 15134-15142.
  • X. M. Ge,* C. J. Fu, S. H. Chan,* “Double layer structure in solid oxide fuel cell anode/electrolyte interfaces: a Monte Carlo study”, Electrochemistry Communications, 13 (2011) 792-795.
  • X. M. Ge,* C. J. Fu, S. H. Chan,* “Three phase boundaries and electrochemically active zones of lanthanum strontium vanadate–yttria-stabilized zirconia anodes in solid oxide fuel cells”, Electrochimica Acta, 56 (2011) 5947-5953.
  • C. J. Fu,* Q. L. Liu, S. H. Chan,* X. M. Ge, G. Pasciak, “Effects of transition metal oxides on the densification of thin-film GDC electrolyte and on the performance of intermediate-temperature SOFC”, International Journal of Hydrogen Energy, 35 (2010) 11200-11207.
  • C. J. Fu,* S. H. Chan,* Q. L. Liu, X. M. Ge, G. Pasciak, “Fabrication and evaluation of Ni-GDC composite anode prepared by aqueous-based tape casting method for low-temperature solid oxide fuel cell”, International Journal of Hydrogen Energy, 35 (2010) 301-307.
  • Y. Xu, X. M. Ge, Y. J. Tong, H. L. Xie, T. Q. Xiao, J. Z. Jiang,* “Kinetic surface roughening of electrodeposited amorphous PdP and NiP films- a comparative study”, Electrochemistry Communications, 12 (2010), 442-445.
  • X. M. Ge, S. H. Chan, “Impedance identification of lanthanum strontium vanadate anode in H2-H2O-He atmosphere”, ECS Transactions, 25 (2009) 2249-2258.
  • X. M. Ge, S. H. Chan,* “Lanthanum strontium vanadate as potential anodes for solid oxide fuel cells”, Journal of the Electrochemical Society, 156 (2009) B386-B391.
  • Y. Xu, X. M. Ge, J. Z. Jiang,* “Preparation and growth behavior of amorphous Pd40Ni40P20 film by electrodeposition”, Journal of Solid State Electrochemistry, 13 (2009), 713-720.
  • Y. Xu, X. M. Ge, B. Y. Du, C. Xu, Y. W. Wang, J. Z. Jiang,* “Anomalous scaling in amorphous PdNiP films electrodeposition”, Journal of the Electrochemistry Society, 155 (2008), D731-D733.
* Corresponding author(s)


Books:
  • X. M. Ge, “Lanthanum strontium vanadate in solid oxide fuel cells: an efficient and robust SOFC oxide anode material”, Lambert Academic Publishing, 2012, GermanyISBN978-3-659-13702-0. 217 pages

GE Xiaoming, LIU Zhaolin, F. W. Thomas Goh, ZONG Yun, LI Bing, ZHANG Jie, and T. S. Andy Hor,  “Bifunctional catalysts for oxygen reduction and evolution reactions and rechargeable metal-air batteries using the same, filed on September 2013, SG Patent Application No. 201306603-0; U. S. Patent Application No. 14/474,485   



Last updated on : 11 Apr 2016 02:04 PM