Dr. Barr Zulevi:

  • Artyushkova, K., et al., Oxygen Binding to Active Sites of Fe-N-C ORR Electrocatalysts Observed by Ambient-Pressure XPS. J. Phys. Chem. C, 2017. 121(5): p. 2836-2843.
  • Stariha, S., et al., PGM-free Fe-N-C catalysts for oxygen reduction reaction: Catalyst layer design. J. Power Sources, 2016. 326: p. 43-49.
  • Serov, A., et al., Highly stable precious metal-free cathode catalyst for fuel cell application. J. Power Sources, 2016. 327: p. 557-564.
  • Li, J., et al., Structural and Mechanistic Basis for the High Activity of Iron-Nitrogen-Carbon Electrocatalysts toward Oxygen Reduction. Energy & Environmental Science, 2016.
  • Anibal, J., et al., Effect of silica morphology on the structure of hard-templated, non-precious metal catalysts for oxygen reduction. Applied Catalysis B: Environmental, 2016. 198: p. 32-37.
  • Workman, M.J., et al., Application of the Discrete Wavelet Transform to SEM and AFM Micrographs for Quantitative Analysis of Complex Surfaces. Langmuir, 2015. 31(17): p. 4924-33.
  • Leonard, N.D., et al., Modeling of Low-Temperature Fuel Cell Electrodes Using Non-Precious Metal Catalysts. J. Electrochem. Soc., 2015. 162(10): p. F1253-F1261.
  • Gumeci, C., et al., Effect of pyrolysis pressure on activity of Fe‚ÄďN‚ÄďC catalysts for oxygen reduction. Journal of Materials Chemistry A, 2015. 3(43): p. 21494-21500.
  • Artyushkova, K., et al., Mechanistic Study of Electrooxidation of Ethanol on PtSn Nanoparticles in Alkaline and Acid Media. J. Electrochem. Soc., 2015. 162(6): p. H345-H351.
  • Zhang, H., et al., Influence of ZnO Facets on Pd/ZnO Catalysts for Methanol Steam Reforming. ACS Catal., 2014. 4(7): p. 2379-2386.
  • Sakamoto, T., et al., Combinatorial discovery of Ni-based binary and ternary catalysts for hydrazine electrooxidation for use in anion exchange membrane fuel cells. J. Power Sources, 2014. 247: p. 605-611.
  • Martinez, U., et al., Ni-La electrocatalysts for direct hydrazine alkaline anion-exchange membrane fuel cells. J. Electrochem. Soc., 2014. 161(13): p. H3106-H3112, 7 pp.
  • Sakamoto, T., et al., Electrooxidation of hydrazine hydrate using Ni‚ÄďLa catalyst for anion exchange membrane fuel cells. Journal of Power Sources, 2013. 234: p. 252-259.
  • Sakamoto, T., et al., Electrooxidation of hydrazine hydrate using Ni-La catalyst for anion exchange membrane fuel cells. J. Power Sources, 2013. 234: p. 252-259.
  • Johnson, R.S., et al., The CO oxidation mechanism and reactivity on PdZn alloys. Physical Chemistry Chemical Physics, 2013. 15(20): p. 7768-7776.
  • Halevi, B., et al., High CO2 Selectivity of ZnO Powder Catalysts for Methanol Steam Reforming. The Journal of Physical Chemistry C, 2013. 117(13): p. 6493-6503.
  • Artyushkova, K., et al., Density functional theory calculations of XPS binding energy shift for nitrogen-containing graphene-like structures. Chemical Communications, 2013. 49(25): p. 2539-2541.
  • Serov, A., et al., Highly active and durable templated non-PGM cathode catalysts derived from iron and aminoantipyrine. Electrochemistry Communications, 2012. 22: p. 53-56.
  • Pylypenko, S., et al., Hierarchically Structured Pt-Alloy Ethanol Oxidation Electrocatalysts. Electrocatalysis, 2012. 3(3-4): p. 334-345.
  • Martinez, U., et al., Aerosol-derived Ni1-xZnx electrocatalysts for direct hydrazine fuel cells. Phys. Chem. Chem. Phys., 2012. 14(16): p. 5512-5517.
  • Martinez, U., et al., Aerosol-derived Ni 1‚ąí x Zn x electrocatalysts for direct hydrazine fuel cells. Physical Chemistry Chemical Physics, 2012. 14(16): p. 5512-5517.
  • Halevi, B., et al., Catalytic reactivity of face centered cubic PdZnőĪ for the steam reforming of methanol. J. Catal., 2012. 291: p. 44-54.
  • Halevi, B., et al., Biomimetic ORR electrocatalysis using structured mixed-oxides. Prepr. Symp. – Am. Chem. Soc., Div. Fuel Chem., 2012. 57(1): p. 417-418.
  • Baranova, E.A., et al., Electrooxidation of ethanol on PtSn nanoparticles in alkaline solution: Correlation between structure and catalytic properties. Electrochim. Acta, 2012. 80: p. 377-382.
  • Peterson, E.J., et al., Aerosol synthesis and Rietveld analysis of tetragonal ő≤1-PdZn. J. Alloys Compd., 2011. 509(5): p. 1463-1470.
  • Halevi, B., et al., Aerosol-Derived Bimetallic Alloy Powders: Bridging the Gap‚Ć. The Journal of Physical Chemistry C, 2010. 114(40): p. 17181-17190.
  • Halevi, B. and J.M. Vohs, Site requirements for the reactions of CH3SH and (CH3)2S2 on ZnO( 1 0 1ŐÖ 0 ). Surf. Sci., 2008. 602(1): p. 198-204.
  • Halevi, B., Fundamental studies of the reactions of alkyl thiols and sulfides on metal-oxide model catalysts. 2007. p. 152 pp.
  • Halevi, B. and J.M. Vohs, TPD study of the reaction of CH3CH2SH and (CH3CH2)2S2 on ZnO(0001) and ZnO. Catal. Lett., 2006. 111(1-2): p. 1-4.
  • Halevi, B. and J.M. Vohs, Reactions of CH3SH and (CH3)2S2 on the (0001) and (0001ŐÖ) Surfaces of ZnO. J. Phys. Chem. B, 2005. 109(50): p. 23976-23982.
  • Li, J., et al., Energy & Environmental Science c6ee01160h.

Dr. Alexey Serov:

  • Alexey Serov¬†‚ÄúCO2Electroreduction on Materials Synthesized by Sacrificial Support Method‚ÄĚ, MRS (2016)
  • Alexey Serov ‚ÄúNovel Electrocatalyst for Hydrogen Oxidation in Alkaline Media‚ÄĚ, ECS PRiME (2016).
  • Alexey Serov¬†“Novel PGM-Free Electrocatalysts for Alkaline Electrolyzers”, ECS PRiME (2016).
  • Alexey Serov¬†‚ÄúDevelopment of PGM-free Catalysts for Hydrogen Oxidation Reaction in Alkaline Media‚ÄĚ DOE AMR (2016).
  • Alexey Serov,¬†J. Gordon, C. Santoro, M. Padilla, K. Artyushkova, O. A. Baturina, S. Kazemi, T. Nickchi, P. Atanassov “CO2Electroreduction on Different Mono- and Bi-Metallic Electrocatalysts: Synthesis, Characterization and Electrode Design” 229 ECS Meeting (2016).
  • Alexey Serov,¬†A. M. Maes, S. Blair, K. Artyushkova, P. Atanassov “Design of Electrocatalysts for Oxygen Evolution Reaction” 229 ECS Meeting (2016).
  • Alexey Serov,¬†Y. S. Kim, M. Odgaard, B. Halevi, P. Atanassov “Electrocatalysts for H2/Air(O2) Anion Exchange Membrane Fuel Cells: Building a New non-PGM Materials Set”, PACIFICHEM (2015).
  • Alexey Serov,¬†K. Artyushkova, P. Atanassov “Development of Sacrificial Support Method (SSM): Materials for Energy Application”, Fuel Cell Seminar (2015).
  • Alexey Serov,¬†S. Stariha, M. Workman, K. Artyushkova, P. Atanassov “‚ÄúSmart MEA‚ÄĚ Approach: Design of Catalyst Layer”, AIChE (2015).
  • Padilla,¬† Alexey Serov, K. Artyushkova, O. A. Baturina, Plamen Atanassov “Novel Approach to Synthesize the Cu-based Selective Electrocatalysts for CO2Electroreduction”, AIChE (2015).
  • Alexey Serov,¬†P. Atanassov, Dr. Alexey Serov, A. Roy, I. Matanovic, N. Andersen “Development of Oxygen Reduction and Oxygen Evolution Reaction Materials in Energy Storage and Conversion Systems”, ACS Meeting (2015).
  • Alexey Serov, S. Stariha, K. Artyushkova, Na. Andersen, P. Atanassov ‚ÄúSynthesis of Non-PGM ORR Catalysts: Control of Chemical, Morphological and Catalytic Properties‚ÄĚ, ECS Meeting (2015).
  • Alexey Serov‚ÄúDevelopment of non-PGM Catalysts for Hydrogen Oxidation Reaction in Alkaline Media‚ÄĚ, Department of Energy Annual Merit Review and Catalyst Working Group (2015).
  • Alexey Serov, M. Padilla, S. Kazemi, A. Aziznia, O. Baturina, P. Atanassov “Highly active and selective catalysts for CO2electroreduction: From nano- to macro-reactors”, Gordon Research Conference (Carbon Capture, Utilization and Storage) (2015).
  • Alexey Serov, N. Andersen, I. Matanovic, A. Roy, P. Atanassov “Oxygen Reduction and Oxygen Evolution Electrocatalysts Prepared by Sacrificial Support Method (SSM)”, ECS Meeting (2015)

Dr. Saburo Hori:

  • Hori,¬†‚ÄúZrO2¬†and ZrO2-Containing Ultrafine Ceramic Powders by Chemical Vapor Deposition Method‚ÄĚ, pp.21-28¬†in Zirconia Ceramics¬†1, Edited by S.¬†Somiya, Uchida Rokakuho, Tokyo,¬†1983
  • Hori, M.¬†Yoshimura, S.¬†Somiya and H.¬†Kaji,¬†‚ÄúChange of Tetragonal ZrO2¬†Content in ZrO2-Toughened Al2O3¬†by Hot Isostatic Pressing‚ÄĚ, J.¬†Mater.¬†Sci.¬†Letters,¬†3¬†[3]¬†242-44¬†(1984)
  • Hori, M.¬†Yoshimura, R.¬†Kurita, H.¬†Kaji and S.¬†Somiya,¬†‚ÄúAnnealing Effect on Fracture Toughness Measurement of ZrO2-Toughened Al2O3¬†Ceramics Using Vickers¬†Indentation‚ÄĚ, Yogyo-Kyokai-Shi,¬†92[5]296-97(1984) (Japanese)
  • Hori, M.¬†Yoshimura, S.¬†Somiya,¬†‚ÄúComparison of Thermodynamic and Kinetic Arguments on Stability of Tetragonal ZrO2Particles in Ceramic Matrices‚ÄĚ, pp.61-73¬†in Zirconia Ceramics¬†3, Edited by S.¬†Somiya and M.¬†Yoshimura, Uchida Rokakuho, Tokyo,¬†1984¬†(Japanese)
  • Hori, M.¬†Yoshimura, S.¬†Somiya and R.¬†Takahashi,¬†‚ÄúAl2O3-ZrO2¬†Ceramics Prepared from CVD Powders‚ÄĚ, pp.794-805¬†in Advances in Ceramics¬†12, Science and Technology of Zirconia II, Edited by¬†N.¬†Claussen, M.¬†Ruehle and A.H.¬†Heuer, The American Ceramic Society, Columbus, OH,¬†1984
  • Hori, M.¬†Yoshimura, S.¬†Somiya, R.¬†Kurita and H.¬†Kaji,¬†‚ÄúMechanical Properties of ZrO2-Toughened Al2O3¬†Ceramics from CVD Powders‚ÄĚ, J.¬†Mater.¬†Sci.¬†Letters,¬†4[4]413-16(1985)
  • Hori, R.¬†Kurita, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúDensification and Grain Growth of ZrO2-Toughened Al2O3¬†Ceramics from CVD Powder‚ÄĚ, pp.45-55¬†in Report of the Research Laboratory of Engineering Materials Vol.¬†10, Tokyo Institute of Technology, 1985
  • Hori, R.¬†Kurita, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúFabrication of ZrO2-Toughened Al2O3¬†Ceramics from Al2O3-ZrO2¬†Powders Codeposited in Vapor Phase Reaction‚ÄĚ, pp.1-15¬†in Zirconia Ceramics¬†4, Edited by S.¬†Somiya and M.¬†Yoshimura, Uchida Rokakuho, Tokyo,¬†1985¬†(Japanese)
  • Hori, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúSuppressed Grain Growth in Final-Stage Sintering of Al2O3¬†with Dispersed ZrO2Particles‚ÄĚ, J.¬†Mater.¬†Sci.¬†Letters,¬†4[9]1067-70 (1985)
  • Hori, R.¬†Kurita, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúSintering of CVD Aluminum Oxide¬†–¬†Titanium Oxide Powders‚ÄĚ, Int.¬†J.¬†High Tech.¬†Ceram.¬†1[1]59-67(1985)
  • Hori, R.¬†Kurita, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúIncrease of Fracture Toughness by Grain Growth in ZrO2-Toughened Al2O3‚ÄĚ, pp.19-26¬†in Zirconia Ceramics¬†5, Edited by S.¬†Somiya and M.¬†Yoshimura, Uchida Rokakuho, Tokyo,¬†1985¬†(Japanese)
  • Hori, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúStrength-Toughness Relations in Sintered and Isostatically Hot-Pressed ZrO2-Toughened Al2O3‚ÄĚ, J.¬†Am.¬†Ceram.¬†Soc.,¬†69[3]169-72(1986)
  • Hori, Y.¬†Ishii, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúPreparation of Codeposited Al2O3-TiO2¬†Powders by Vapor Phase Reaction Using Combustion Flame‚ÄĚ, Yogyo-Kyokai-Shi,¬†94[4]400-408(1986) (Japanese)
  • Hori, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúEffects of Excess Al2O3¬†and TiO2¬†on Microstructure and Properties of Al2TiO5¬†Ceramics Prepared from CVD Powders‚ÄĚ, pp.87-94¬†in Defect Properties and Processing of High-Technology Nonmetallic Materials, Edited by Y.¬†Chen, W.D.¬†Kingery and R.J.¬†Stokes, MRS Symposia Proceeding¬†60, Materials Research Society, Pittsburgh,¬†1986
  • Hori, H.¬†Kaji, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúDeflection-Toughened Corundum-Rutile Composites‚ÄĚ, pp.283-88¬†in Advanced Structural Ceramics, Edited by P.F.¬†Becher, M.V.¬†Swain and S.¬†Somiya, MRS Symposia Proceeding¬†78, Materials Research Society, Pittsburgh,¬†1987
  • Hori, R.¬†Kurita, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúZrO2-Toughened Al2O3:¬†CVD Powder Preparation, Sintering and Mechanical Properties‚ÄĚ, pp.123-34¬†in Fundamental Structural Ceramics, Edited by S.¬†Somiya and R.C.¬†Bradt, Terra Scientific Publishing Company, Tokyo,¬†1987
  • Hori, R.¬†Kurita, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúInfluence of Small ZrO2¬†Additions on the Microstructure and Mechanical Properties of Al2O3‚ÄĚ, pp.423-29¬†in Advances in Ceramics¬†24, Science and Technology of Zirconia III, Edited by S.¬†Somiya, H.Yanagida and N.¬†Yamamoto, The American Ceramic Society, Columbus, OH,¬†1988
  • Hori,¬†‚ÄúCharacterization of Ceramic Composite Powders Prepared by Vapor Phase Reaction Using Combustion Flame‚ÄĚ, pp.42-71¬†in Nensho-Kenkyu¬†(Combustion Research)¬†No.¬†80, Combustion Society of Japan,¬†1989¬†(Japanese)
  • Hirata, S.¬†Matsushita, S.¬†Nakagama, Y.¬†Ishihara and S.¬†Hori,¬†‚ÄúRheological Properties and Consolidation of the Suspension in the Alumina Powder¬†–¬†Silicaon Nitride Whisker System‚ÄĚ J.¬†Ceram.¬†Soc.¬†Jpn.,¬†97[9]881-87(1989) (Japanese), and J.¬†Ceram.¬†Soc.Jpn.¬†Intn’l.¬†Ed.,¬†97¬†866-71¬†(1989) (English)
  • Hori, Y.¬†Shigaki, Y.¬†Hirata, M.¬†Yoshimura and S.¬†Somiya,¬†‚ÄúCharacterization and Processing of CVD Powders for Fabrication of Composite and Compound Ceramics‚ÄĚ, pp.3-12¬†in Processing Science of Advanced Ceramics, Edited by I.A.¬†Aksay, G.L.¬†McVay and D.R.¬†Ulrich, MRS Symposia Proceeding¬†155, Materials Research Society, Pittsburgh,¬†1989
  • Hirata, S.¬†Matsushita, S.¬†Nakagama, I.¬†Haraguchi, N.¬†Hamada, Y.¬†Ishihara and S.¬†Hori,¬†‚ÄúDispersion and Consolidation of the Colloidal Suspension in the Al2O3¬†Powder¬†–¬†Si3N4¬†Whisker System‚ÄĚ, pp.343-52¬†in Processing Science of Advanced Ceramics, Edited by I.A.¬†Aksay, G.L.¬†McVay and D.R.¬†Ulrich, MRS Symposia Proceeding¬†155, Materials Research Society, Pittsburgh,¬†1989
  • Hori, K.¬†Tagaya, Y.¬†Taniguchi and K.¬†Yoda,¬†‚ÄúInfluence of Carbon Fiber Properties on Reinforced Concrete‚ÄĚ, pp.1582-86¬†in Proc.¬†of¬†1st¬†Japan Intn’l SAMPE Symp., New Materials and Processes for the Future, Edited by N.¬†Igata, I.¬†Kimpara, T.¬†Kishi, E.Nakata, A.¬†Okura and T.¬†Uryu, SAMPE,¬†1989
  • Hori and R.¬†Kurita,¬†‚ÄúCharacterization and Sintering of Al2O3-SiO2¬†Powders Formed by Chemical Vapor Deposition‚ÄĚ, pp.311-22¬†in Ceramic Transaction¬†6, Mullite and Mullite Matrix Composites, Edited by S.¬†Somiya, R.F.¬†Davis and J.A.¬†Pask, The American Ceramic Society, Westerville, OH,¬†1990
  • Hirata, I.A.¬†Aksay, R.¬†Kurita, S.¬†Hori and H.¬†Kaji,¬†‚ÄúProcessing of Mullite with Powdes Processed by Chemical Vapor Deposition‚ÄĚ, pp.323-38¬†in Ceramic Transactions¬†6, Mullite and Mullite Matrix Composites, Edited by S.¬†Somiya, R.F.¬†Davis and J.A.¬†Pask, The American Ceramic Society, Westerville, OH,¬†1990
  • Hori,¬†‚ÄúSintering Mechanism of Ceramics and Its Manipulation‚ÄĚ, Shikizai Kyoukaishi¬†(Journal of the Japan Society of Colour Material),¬†63[7]402-10(1990) (Japanese)
  • Saito, S.¬†Hori and T.¬†Shiosaki,¬†‚ÄúHeteroepitaxial Growth of LiTaO3¬†Thin Films on Sapphire Substrates by r.f.¬†Magnetron Sputtering‚ÄĚ, pp.292-302¬†in Ceramic Transactions¬†25, Ferroelectric Films, Edited by A.S.¬†Bhalla and K.M.¬†Nair, The American Ceramic Society, Westerville, OH,¬†1992
  • Tani, N.¬†Watanabe, K.¬†Takatori and S.¬†Hori,¬†‚ÄúPiezoelectric and Dielectric Properties for Doped Lead Zirconate Titanate Ceramics under Strong Electric Field‚ÄĚ, Jpn.¬†J.¬†Apl.¬†Phys.,¬†33, Part¬†1¬†[9B]5352-55(1994)
  • Yamaguchi and S.¬†Hori,¬†‚ÄúDevelopment of CMC and MMC Materials by¬†Lanxide‚ÄĚ, pp.95-101¬†in Ceramic Data Book¬†’95, Kogyo Seihin Gijutsu Kyokai¬†(Industrial Product Technology Society), Tokyo,¬†1995¬†(Japanese)
  • Hori,¬†‚ÄúDeformation, Fracture and Fatigue Behavior of Discontinuously Reinforced Metal Matrix Composites‚ÄĚ, New Ceramics,9[7]20-28(1996) (Japanese)
  • Hori,¬†‚ÄúNet Shape Manufacturing of CMC and MMC by Lanxide Processes‚ÄĚ, Bull.¬†Ceram.¬†Soc.¬†Jpn.,¬†32[2]93-97(1998) (Japanese)
  • Hirata and S.¬†Hori,¬†‚ÄúSintering of Ceramics Using a Poly-Silazane Polymer as an Additive‚ÄĚ, pp.¬†59-63¬†in Annual Report of Kagoshima University Research and Development Center Vol.¬†6,¬†1998¬†(Japanese)
  • Hirata, J.¬†Nakamura and S.¬†Hori,¬†‚ÄúMechanical Properties of TiC-Coated Graphite‚ÄĚ, pp.279-82¬†in Key Engineering Materials Vols.¬†161-163, Trans¬†Tech Publications, Switzerland,¬†1999, or in CSJ Series Vol.¬†2, The Ceramic Society of Japan,¬†1999

Dr Alia Lubers:

  • Stolaroff, J.K., C.S Samaras, E.R. O‚ÄôNeill,¬†A.M. Lubers, A.S. Michell, D. Ceperley, ‚ÄúEnergy use and life cycle greenhouse gas emissions of drones for commercial package delivery,‚ÄĚ Nature Communications, accepted
  • Lubers, A.M., W.W. McNeary, D.J. Ludlow, A.W. Drake, M. Faust, M.E. Maguire, M.U. Kodas, M. Seipenbusch, A.W. Weimer, ‚ÄúProton Exchange Membrane Fuel Cell Flooding Caused by Residual Functional Groups after Platinum Atomic Layer Deposition,‚ÄĚ Electrochimica Acta, Vol. 237, 192‚Äď198, 2017
  • Lubers, A.M., A.W. Drake, D.J. Ludlow, A.W. Weimer, ‚ÄúElectrochemical hydrogen pumping using a platinum catalyst made in a fluidized bed via atomic layer deposition,‚ÄĚ Powder Technology, Vol 296, 72‚Äď78, 2016
  • Lubers, A.M., C.L. Muhich, K.M. Anderson, A.W. Weimer, “Mechanistic studies for depositing highly dispersed Pt nanoparticles on carbon by use of trimethyl(methylcyclopentadienyl)platinum(IV) reactions with O2¬†and H2,” Journal of Nanoparticle Research, Vol 17, 1‚Äď16, 2015
  • Gould, T.D., M.M. Montemore,¬†A.M. Lubers, L.D. Ellis, A.W. Weimer, J.L. Falconer, J.W. Medlin, “Enhanced dry reforming of methane on Ni and Ni-Pt catalysts synthesized by atomic layer deposition,” Applied Catalysis A: General, Vol 592, 107‚Äď116, 2015
  • Gould, T.D.,¬†A.M. Lubers, A.R. Corpuz, A.W. Weimer, J.L. Falconer, J.W. Medlin, “Controlling nanoscale properties of supported platinum catalysts through atomic layer deposition,” ACS Catalysis, Vol 5, 1344‚Äď1352, 2015
  • Gould, T.D.,¬†A.M. Lubers, B.T. Neltner, A.W. Weimer, J.L. Falconer, J.W. Medlin, “Synthesis of supported Ni catalysts via atomic layer deposition,” Journal of Catalysis, Vol 303, 9‚Äď15, 2013
  • Chervin, C.N.,¬†A.M. Lubers, J.W. Long, D.R. Rolison, ‚ÄúEffect of temperature and atmosphere on the conductivity and electrochemical capacitance of single-unit-thick ruthenium dioxide,‚ÄĚ Journal of Electroanalytical Chemistry, Vol 644, 155‚Äď163, 2010
  • Chervin, C.N.,¬†A.M. Lubers, K.A. Pettigrew, J.W. Long, M.A. Westgate, J.J. Fontanella, D.R. Rolison, ‚ÄúMaking the most of a scarce platinum-group metal: Conductive ruthenia nanoskins on insulating silica paper,‚ÄĚ Nano Letters, Vol 9, 2316‚Äď2321, 2009
  • Rolison, D.R., R.W. Long, J.C. Lytle, A.E. Fischer, C.P. Rhodes, T.M. McEvoy, M.E. Bourg,¬†A.M. Lubers, ‚ÄúMultifunctional 3D nanoarchitectures for energy storage and conversion,‚ÄĚ Chemical Society Reviews, Vol 38, 226‚Äď252, 2009
  • Zulevi, B.,¬†A. Lubers, G. McCool, S. McKinney, H. Romero, ‚ÄúDurable Engineered Catalyst Supports,‚ÄĚ oral presentation at the 231st¬†ECS meeting in New Orleans, LA, 2017
  • Zulevi, B.,¬†A. Lubers, G. McCool, S. McKinney, H. Romero, A. Serov, ‚ÄúControlled Structure Manufacturing of Porous Carbons,‚ÄĚ oral presentation at NAM25 in Denver, CO, 2017
  • Lubers, A., B. Zulevi, G. McCool, S. McKinney, H. Romero, A. Serov, ‚ÄúDurable Engineered Catalyst Supports,‚ÄĚ poster presentation at NAM25 in Denver, CO, 2017
  • Lubers, A., ‚ÄúEngineered Catalyst Supports for Durable Electrocatalysts,‚ÄĚ technical oral presentation at Hannover Messe, Hannover, Niedersachsen, Germany, 2017
  • T. Stephenson, T.,¬†A. Lubers, G. McCool, H. Romero, S. McKinney, B. Zulevi, ‚ÄúEngineered Catalyst Supports for Low Precious-Metal-Content Catalysts,‚ÄĚ oral presentation at PRiME meeting in Honolulu, HI, 2016
  • Lubers, A., ‚ÄúEngineered Catalyst Supports for low precious‚Äź metal‚Äźcontent catalysts,‚ÄĚ technical oral presentation at Hannover Messe, Hannover, Niedersachsen, Germany, 2016
  • Lubers, A.M., C.L. Muhich, K.M. Anderson, A.W. Weimer, “Preparation of Carbon Supported Pt Nanoparticles by Atomic Layer Deposition,” oral presentation at AIChE Annual Meeting in Atlanta, GA, 2014
  • Lubers, A.M., A. Drake, M. Faust, M. Seipenbusch, A.W. Weimer, “Performance and Stability of PEM Fuel Cell Catalysts Synthesized Using ALD,” poster presentation at AIChE Annual Meeting in Atlanta, GA, 2014
  • Lubers, A.M., M. Faust, K.M. Anderson, T.D. Gould, R. Fisher, C. Schoenbaum, M. Seipenbusch, A.W. Weimer, “Preparation of Pt/C Catalyst by Particle ALD, Fuel Cell Electrode Fabrication and Testing,” oral presentation at AIChE Annual Meeting in San Francisco, CA, 2013
  • Lubers, A.M., M. Faust, K.M. Anderson, T.D. Gould, R. Fisher, C. Schoenbaum, M. Seipenbusch, A.W. Weimer, “Pt Nanoparticle Synthesis Via Atomic Layer Deposition for Use in Fuel Cells,” poster presentation at AIChE Annual Meeting in San Francisco, CA, 2013
  • Lubers, A.M., K.M. Anderson, T.D. Gould, M. Faust, M. Seipenbusch, A.W. Weimer, “Pt Nanoparticle Synthesis Using Atomic Layer Deposition for Use in Fuel Cells,” oral presentation at ASME Energy Sustainability & Fuel Cell Conference in Minneapolis, MN, 2013
  • Lubers, A.M., K.M. Anderson, T.D. Gould, M. Faust, M. Seipenbusch, A.W. Weimer, “Thermal Stability of Pt Nanoparticles on Carbon for Use in Fuel Cells,” poster presentation at ASME Energy Sustainability & Fuel Cell Conference in Minneapolis, MN, 2013
  • Gould, T.D.,¬†A.M. Lubers, J.W. Medlin, A.W. Weimer, J.L. Falconer, “Gas Phase Synthesis of Nickel Catalyst Nanoparticles Via Atomic Layer Deposition,” poster presentation at the 2012 AIChE Annual Meeting in Pittsburgh, PA, 2012
  • Gould, T.D.,¬†A.M. Lubers, J.L. Falconer, J.W. Medlin, A.W. Weimer, “Atomic Layer Deposition As a Catalyst Synthesis Technique for Nickel Nanoparticles,” oral presentation at the 2012 AIChE Annual Meeting in Pittsburgh, PA, 2012
  • Lubers, A.M., T.D. Gould, K.M. Anderson, B.T. Neltner, A.W. Weimer, “Platinum Deposition and Stability by Atomic Layer Deposition on Particle and Carbon Substrates for Electrochemical Devices,” oral presentation at the WREF 2012 Conference in Denver, CO, 2012
  • Lubers, A.M., T.D. Gould, K.M. Anderson, A.W. Weimer, “Atomic Layer Deposition of Bimetallic Nickel/Nickel Oxide and Platinum Catalysts on Alumina for Electrochemical Devices,” poster presentation at the 2011 AIChE Annual Meeting in Minneapolis, MN, 2011
  • Lubers, A.M., A.W. Weimer, “Deposition of Platinum by ALD and Alucone by MLD on Carbon Substrates for Electrochemical Catalyst Stabilization,” oral presentation at 2010 Student Annual Research Symposium in Boulder, CO, 2010
  • Rolison, D.R., C.N. Chervin, J.W. Long,¬†A.M. Lubers, K.A. Pettigrew, “Making the Most of An Electrochemically Critical Material: Self-Wiring Metallic Nanoskins of Ruthenium Dioxide Onto (dirt-cheap) Glass Filter Paper,” oral presentation at the CERMACS of the ACS Spring Meeting in Cleveland, OH, 2009
  • Chervin, C.N.,¬†A.M. Lubers, J.W. Long, D.R. Rolison, “A multifunctional catalytic platform for energy storage and conversion,” oral presentation at the 238th ACS National Meeting in Washington, DC, 2009
  • Chervin, C.N., J.W. Long,¬†A.M. Lubers, K.A. Pettigrew, D.R. Rolison, “Ruthenia Nanoskins Deposited on the Fibers of Silica Filter Paper: Towards a Carbon- and Ionomer-Free Fuel-Cell Electrode,” oral presentation at the 215th ECS Meeting in San Francisco, CA, 2009
  • Lubers, A.M., C.N. Chervin, J.P. Pietron, J.W. Long, J.C. Lytle, K.A. Pettigrew, D.R. Rolison, “Electrochemical Analysis of RuO2¬†Nanoskins on SiO2¬†Filter Paper,‚ÄĚ poster presentation at the MRS Fall Meeting in Boston, MA, 2008
  • Chervin, C.N.,¬†A.M. Lubers, J.W. Long, J.C. Lytle, M. Westgate, K.A. Pettigrew, J.J. Fontanella, D.R. Rolison, “A Simple Solution-Based Method for Depositing Conductive Nanoscale-Coatings of RuO2 onto SiO2 Filter Paper: Obtaining Macroscopic Conductivity from Nanostructured Features,” oral presentation at the MRS Fall Meeting in Boston, MA, 2008
  • Kitchin, J.R., C. Dsilva, D. Mattingly,¬†A.M. Lubers, “Pt-Decorated Electrocatalysts for Direct Alcohol Fuel Cells,” oral presentation at the 2008 AIChE Annual Meeting in Philadelphia, PA, 2008

Geoff McCool:

  • Cassell, A.M., et al., Carbon nanotube networks by chemical vapor deposition. Applied Physics Letters. 82(5): p. 817-19. 2003
  • Bishop, D.B., et al., X-ray absorption spectroscopy of thiocrown compounds used in the remediation of mercury-contaminated water. Microchemical Journal. 71(2-3 Special Issue SI): p. 247-254, 2002
  • Durable Engineered Catalyst Supports and Economic MOF-Based PMF Oxygen-Reaction Catalysts, Oral Presentation, ECS 10-13-15
  • Structural and mechanistic basis for the high activity of Fe‚ÄďN‚ÄďC catalysts toward oxygen reduction Energy Environ. Sci., 9, 2418, DOI: 10.1039/c6ee01160h, 2016
  • Effects of Synthesis Conditions on Structure and Surface Properties of SmMn2O5 Mullite-type Oxide Article‚Äāin‚ÄāApplied Surface Science 385 DOI: 10.1016/j.apsusc.2016.05.151, 2016
  • Long-wavelength emitting nanocrystals for bioassay applications Article‚Äāin‚ÄāProceedings of SPIE – The International Society for Optical Engineering DOI: 10.1117/12.451573, 2002
  • Highly stable precious metal-free cathode catalyst for fuel cell application Journal of Power Sources Volume 327, 30
  • Patent: Palladium‚ÄĒgold catalyst synthesis, Patent number: 9272266
  • Patent: Mixed phase oxide catalysts, Patent number: 9457344
  • Mixed Phase Oxide Catalyst Based on Mn-Mullite AMn2O5 (A=Sm, Gd) for NO Oxidation in Diesel Exhaust. Science, 2012Patent: Palladium‚ÄĒgold catalyst synthesis, Patent number: 9272266