{"id":59,"date":"2012-08-30T02:58:58","date_gmt":"2012-08-30T02:58:58","guid":{"rendered":"http:\/\/localhost\/wordpress-3.4.1\/wordpress\/?page_id=59"},"modified":"2026-04-08T10:00:17","modified_gmt":"2026-04-08T15:00:17","slug":"publications","status":"publish","type":"page","link":"https:\/\/grabow.chee.uh.edu\/?page_id=59","title":{"rendered":"Publications"},"content":{"rendered":"\n
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2026<\/strong><\/h3>\n\n\n
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  1. Hongliang Xin*, John R. Kitchin*, N\u00faria L\u00f3pez*, Neil M. Schweitzer*, Milad Abolhasani, Nongnuch Artrith, L\u00edney \u00c1rnad\u00f3ttir, Kamal Choudhary, Rui Ding, Anatoly I. Frenkel, Joseph A. Gauthier, Bryan R. Goldsmith, Amir Barati Farimani, Lars C. Grabow, G. T. Kasun Kalhara Gunasooriya, Guoxiang Hu, Tyler R. Josephson, Heather J. Kulik, Ritesh Kumar, Teodoro Laino, Hao Li, Xiao-Yan Li, Wanlu Li, Suljo Linic, Chong Liu, Cong Liu, Fudong Liu, Mingjie Liu, Piao Ma, Andrew J. Medford, Sukrit Mukhopadhyay, Pengfei Ou, Christopher Paolucci, Jiayu Peng, Cory Phillips, Marc D. Porosoff, Long Qi, Andrew S. Rosen, Shijing Sun, Tibor Szilv\u00e1si, Johannes Voss, Siwen Wang, Xiaonan Wang, Kirsten Winther, Qin Wu, Di Zhang, Zisheng Zhang, “Transparent Reporting for Agentic Catalysis Enabled by Artificial Intelligence (TRACE-AI): Community Guidelines and A Publication Checklist” ChemRxiv<\/a>, 2026.<\/span><\/li>\n\n\n\n\n
  2. K. L. Kusima, O. Abdelrahaman, P. Christopher, L. C. Grabow, “Decoupling Photon-Driven CO Desorption from Photothermal Heating on Pt Catalysts,” ChemRxiv<\/a>, 2026.<\/span><\/li>\n\n\n\n
  3. A. P. Abraham, K. D. Hart, Md. S. Hossain, A. M. Shakib, S. Wang, A. M. Battiste, L. C. Rich, L. C. Grabow*, and Bert D. Chandler*, “Kinetic Isotope Effects Indicate Quantum Tunneling During H2<\/sub> Activation on Au\/TiO2<\/sub> Catalysts”, submitted<\/em>, 2026.<\/span><\/li>\n\n\n\n
  4. L. Babb, M. Blankemeyer, O. De Luca, Md. S. Hossain, F. Akter, C. Suh, C. Geci, D. Green, S. Wang, B. Frederick*, T. Schwartz*, L. C. Grabow*, R. N. Austin*, “Periodic trends in the room temperature dehalogenation of halobenzenes catalyzed by Rh\/Al2<\/sub>O3<\/sub>“, submitted<\/em>, 2026.<\/span><\/li>\n\n\n\n
  5. P. Byaruhanga, Y. Wang, R. Tran, K. S. Choong, H. Zhong, V. Joshi, S. Song, D. Wang, M. Zou, V. G. Hadjiev, H. Guo, J. Bao, L. C. Grabow, Z. Feng, Z. Ren, S. Chen*, “Anion-Environment-Controlled Synthesis of Ce-Doped NiFe LDH for Enhanced Activity and Stability in High-Current-Density Alkaline Oxygen Evolution”, ACS Energy Letters<\/em> 11<\/strong>(2), 2209-2219, [DOI<\/a>], 2026.<\/span><\/li>\n\n\n\n
  6. H. Xin, J. R. Kitchin, N. L\u00f3pez, N. M. Schweitzer, N. Artrith, F. Che, L. C. Grabow, G. T. K. K. Gunasooriya, H. J. Kulik, T. Laino, H. Li, S. Linic, A. J. Medford, R. J. Meyer, J. Peng, C. Phillips, J. Qian, L. Qi, W. J. Shaw, Z. W. Ulissi, S. Wang, X. Wang, “Roadmap for Transforming Heterogeneous Catalysis with Artificial Intelligence”, Nature Catalysis<\/em> 9<\/strong>, 102-111 [DOI<\/a>], 2026. Preprint available on ChemRxiv<\/a>.<\/span>
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    2025<\/strong><\/h3><\/li>\n\n\n\n
  7. T. Bathena, K. L. Kusima, D. Gatzios, M. W. Arshad, K. Chakravarthy Thangaraj, B. M. Sivakumar, V. Prabhakaran, L. D. Ellis, V. Murugesan, K. Ramasamy, L. C. Grabow*, K. A. Goulas*, A. S. Karakoti*, “Redox Cycling and Restructuring of Silica-supported Bismuth Molybdate Catalysts”, ChemCatChem<\/em>, 17<\/strong> (23), e00970 [DOI<\/a>], 2025.<\/span><\/li>\n\n\n\n
  8. D. Sarkar, K. L. Kusima, M. R. Kunz, J. C. Wray, S. L. Palmer, D. Maiti*, L. C. Grabow, R. Fushimi, “Transient kinetic insights into selective propene oxidation over industrial bismuth molybdate catalysts”, Chemical Engineering Journal<\/em> 524<\/strong>, 168782 [DOI<\/a>], 2025.<\/span><\/li>\n\n\n\n
  9. 4.\tJ. A. Hopkins, B. J. Page, S. Wang, J. R. Canavan, J. A. Chalmers, S. L. Scott, L. C. Grabow, J. R. McKone, P. J. Dauenhauer, O. A. Abdelrahman*, “Isopotential Electron Titration: Hydrogen Adsorbate-Metal Charge Transfer”, ACS Central Science<\/em> [DOI<\/a>], 2025.<\/span>
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  10. D. Maiti, M. P. Harold, L. C. Grabow*, “Single atom alloys 2.0: Exploiting undercoordination for stronger dissociative CH4<\/sub> chemisorption”, Surface Science<\/em> 757<\/strong>, 122735 [DOI<\/a>], 2025. Data available in the Texas Data Repository<\/a>.<\/span>\n
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  11. P. W. Chen<\/span>, J. Ratcliff, L. C. Grabow<\/span><\/font><\/span><\/font>, M. P. Harold<\/span><\/font><\/span><\/font>*, “Modulated CH4<\/sub> Oxidation Over PGM\/Spinel Oxide Dual Layer Catalysts: Experiments and Modeling”, Chemical Engineering Journal<\/em> 507<\/strong>, 160405 [DOI<\/a>], 2025.<\/span><\/li>\n\n\n\n
  12. A. S. Burte, A. Nair, L. C. Grabow<\/span><\/font><\/span><\/font><\/span>, P. J. Dauenhauer, S. L. Scott, O. A. Abdelrahman*, “CatTestHub: A benchmarking database of experimental heterogeneous catalysis for evaluating advanced materials”, Journal of Catalysis<\/em> 44<\/strong>, 115902 [DOI<\/a>], 2025.<\/span>
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  13. M. Moniruzzaman, L. C. Grabow, M. P. Harold*, “Forced Dynamic Operation of Propylene Selective Oxidation to Acrolein on Bismuth-Molybdate Structured Catalysts”, Applied Catalysis A: General<\/em> 691<\/strong>, 120034 [DOI<\/a>], 2025<\/span>.
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    2024<\/strong><\/h3><\/li>\n\n\n\n
  14. H. S. Rauf, Y.-S. Liu, S. P. S. Solanki, E. Deydier, R. Poli*, L. C. Grabow*, E. Harth*, “Unraveling Organoboron\/Nickel Ion-Pair Interactions via <\/em>Benchtop-Stable Carbyl Iminopyridyl NiII<\/sup> Complexes for Olefin Polymerization”, ACS Catalysis<\/em> 14<\/strong>, 13136\u201313147 [DOI<\/a>], 2024.<\/span><\/li>\n\n\n\n
  15. R. Tran*, L. Huang, Y. Zi, S. Wang, B. M. Comer, X. Wu, S. J. Raaijman, N. K. Sinha, S. Sadasivan, S. Thundiyil, K. B. Mamtani, G. Iyer, L. C. Grabow, L. Lu*, and J. Chen*, “Rational design of oxide catalysts for OER with OC22”, Nanoscale<\/em> 16<\/strong>, 17090-17101 [DOI<\/a>], 2024.<\/span>
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  16. M. A. Murphy,S. R. Gathmann, R. Getman, L. C. Grabow, O. A. Abdelrahman, P. J. Dauenhauer*, “Catalytic Resonance Theory: The Catalytic Mechanics of Programmable Ratchets”, Chemical Science<\/em> 15<\/strong>, 13872-13888 [DOI<\/a>], 2024.<\/span>
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  17. V. V. R. Vempatti, S. Wang*, O. Abdelrahman, P. J. Dauenhauer, and L. C. Grabow*, “Accelerated Steam Methane Reforming by Dynamically Applied Charges”, Journal of Physical Chemistry C<\/em> <\/span>128<\/strong>, 12938\u201312948 [DOI<\/a>], 2024.<\/span>
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  18. P. W. Chen, R.-F. Liu, L. C. Grabow, M. P. Harold*, “Water Gas Shift and Methane Steam Reforming Kinetics on Pt+Pd\/Al2<\/sub>O3<\/sub> Monolith”, Industrial & Engineering Chemistry Research<\/em> 63<\/strong>, 7565-7577 [DOI<\/a>], 2024.<\/span>
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  19. S. Gathmann, C. Bartel, L. C. Grabow, O. Abdelrahman, C. D. Frisbie, P. J. Dauenhauer*, “Dynamic Promotion of the Oxygen Evolution Reaction via Programmable Metal Oxides”, ACS Energy Letters<\/em> 9<\/strong>, 2013-2023<\/span> [DOI<\/a>], 2024.<\/span>
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  20. S. P. S. Solanki, Z. Gan, S. Marino, R. J. Davis, W. S. Epling*, and L. C. Grabow*, “Methane partial oxidation under periodic reaction conditions on Pt\/Al2<\/sub>O3<\/sub>“, Reaction Chemistry & Engineering<\/em> 9<\/strong>, 1489 – 1498 [DOI<\/a>], 2024<\/span>.
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  21. Z. Gan, J. F. Brazdil, L. C. Grabow, and W. S. Epling*, “Propane ammoxidation over a commercial bismuth molybdate-based catalyst using forced dynamic operation”, Applied Catalysis A: General<\/em> 672<\/strong>, 119585 [DOI<\/a>], 2024. <\/span><\/span>
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  22. S. P. S. Solanki, M. Ambast, A. Gupta, C. Paolucci, M. P. Harold, and L. C. Grabow, “Complete Mechanism for NOx Adsorption and Release on Atomically Dispersed Palladium in Pd-CHA” – ACS ES&T Engineering<\/em> 4<\/strong>, 209-220 [DOI<\/a>], 2024<\/span>.
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  23. Y. Song, S. Svadlenak, T. Bathena, M. J. Hazlett, W. S. Epling, K. A. Goulas, and L. C. Grabow, “PdCu alloy catalyst for inhibition-free, low-temperature CO oxidation”, ChemCatChem<\/em> 16<\/strong>, e202301024 [DOI<\/a>], 2024<\/span>.
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    2023<\/strong><\/h3><\/li>\n\n\n\n
  24. P. W. Chen, D. Maiti, R.-F. Liu, L. C. Grabow, and M. P. Harold, “Tailored PGM\/spinel oxide catalysts for dynamically enhanced CH4<\/sub> oxidation”, ACS Engineering Au<\/em> 4<\/strong>, 193-203 [DOI<\/a>], 2023. (Editor’s Choice)<\/span>
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  25. A. Mahdavi-Shakib, T. N. Whittaker, T. Yong Yun, K. B. S. Kumar, L. C. Rich, S. Wang, R. M. Rioux, L. C. Grabow, and B. D. Chandler, “The role of surface hydroxyls in the entropy-driven adsorption and spillover of H2<\/sub> on Au\/TiO2<\/sub> catalyst”, Nature Catalysis<\/em> 6<\/strong>, 710-719 [DOI<\/a>], 2023.<\/span>
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  26. D. Parmar, S. H. Cha, C. Huang, H. Chiang, S. Washburn, L. C. Grabow, and J. D. Rimer, “Impact of Medium-Pore Zeolite Topology on Para-Xylene Production from Toluene Alkylation with Methanol”, Catalysis Science & Technology<\/em> 13<\/strong>, 5227-5236, [DOI<\/a>],<\/span> 2023<\/span>.
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  27. D. Nguyen, S. Wang, L. C. Grabow, E. Harth, “Deciphering the Olefin Isomerization-Polymerization Paradox of Palladium(II) Diimine Catalysts: Discovery of Simultaneous and Independent Pathways of Olefin Isomerization and Living Polymerization.”, Journal of the American Chemical Society<\/em><\/span><\/em> 145<\/strong>, 9755\u20139770, [DOI<\/a>], 2023<\/span>.<\/li>\n\n\n\n
  28. S. Daneshmandi, T. Salavati-fard, M. Adnani, L. Deng, M. Gooch, Z. Wu, L. C. Grabow, C. Chu, Y. Lyu, “Anisotropic Topological Surface States in Thin-Film Monoclinic Ag2<\/sub>Se”, Materials Today Physics<\/em> 32<\/strong>, 101013, [DOI<\/a>], 2023<\/span>.<\/li>\n\n\n\n
  29. D. S. Mallapragada, Y. Dvorkin, M. Modestino, D. V. Esposito, W. Smith, B.-M. Hodge, M. P. Harold, V. M. Donnelly, A. Nuz, C. Bloomquist, K. Baker, L. C. Grabow, Y. Yan, N. N. Rajput, R. Hartman, E. J. Biddinger, E. Aydil, and A. Taylor, “Decarbonization of the Chemical Industry through Electrification: Barriers and Opportunities”, Joule<\/em> 7<\/strong>, 23\u201341<\/span> [DOI<\/a>], 2023. Preprint available on ChemRxiv<\/a><\/span><\/span>.
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    2022<\/strong><\/h3><\/li>\n\n\n\n
  30. R. L. Hartman, L. C. Grabow, “Editorial overview: Data-centric catalysis and reaction engineering,” Current Opinion in Chemical Engineering 38<\/strong>, 100875 [DOI<\/a>],<\/span><\/span> 2022. <\/span><\/li>\n\n\n\n
  31. X. Zhao, Q. Ning, L. C. Grabow, J. D. Rimer, P. Bollini, “Carbonate dimorphism, and the reinterpretation of rates of lattice and excess oxygen-driven catalytic cycles”, Journal of Catalysis <\/em>416<\/strong>, <\/em>423\u2013438 [DOI<\/a>], 2022<\/span>.
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  32. T. M. Onn, S. Gathmann, S. Guo, S. P. Solanki, A. Walton, B. Page, G. Rojas, M. Neurock, L. C. Grabow, K. A. Mkhoyan, O. A. Abdelrahman, C. D. Frisbie, and P. Dauenhauer, “Platinum graphene catalytic condenser for millisecond programmable metal surfaces”, Journal of the American Chemical Society<\/em> 144<\/strong>, 48, 22113\u201322127 [DOI<\/a>], 2022. Preprint available on ChemRxiv<\/a>.<\/span><\/li>\n\n\n\n
  33. D. Parmar, S. Cha, T. Salavati-fard, A. Agarwal, H. Chiang, S. Washburn, J. Palmer, L. C. Grabow, J. D. Rimer, “Spatiotemporal Coke Coupling Enhances Para-Xylene Selectivity in Highly Stable MCM-22 Catalysts”, Journal of the American Chemical Society<\/em> 144<\/strong>, 7861-7870 [DOI<\/a>], 2022<\/span>.
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  34. T. Bathena, T. Phung, S. Svadlenak, Y. Liu, L. C. Grabow, K. Goulas, “Oxygenate Reactions over PdCu and PdAg Catalysts: Distinguishing Electronic and Geometric Effects on Reactivity and Selectivity”, ACS Catalysis<\/em> 12<\/strong>, 5766-5775 [DOI<\/a>], 2022. Preprint available on ChemRxiv<\/a>.<\/span>
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  35. K. Rao, L. C. Grabow, J. P. Mu\u00f1oz-P\u00e9rez, D. Alarc\u00f3n-Ruales, R. B. R. Azevedo, “Sea Turtle Facial Recognition Using Map Graphs of Scales”, (submitted), Preprint available on BioRxiv<\/em> [DOI<\/a>], 2022<\/span>.<\/li>\n\n\n\n
  36. P. W. Chen, D. Maiti, R.-F. Liu, L. C. Grabow, and M. P. Harold, “Ch4 steam reforming on Pt + Pd\/Al2<\/sub>O3<\/sub> Monolith: Impact of Mn0.5<\/sub>Fe2.5<\/sub>O4<\/sub> spinel addition.” <\/span>Catalysis Science & Technology<\/em>; 12<\/strong>, 2618\u20132633<\/span> [<\/span>DOI<\/a>], 2022<\/span>. Preprint available on Catalysis Science & Technology<\/a><\/span>.
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    <\/div><\/li>\n\n\n\n
  37. X. Li and L. C. Grabow, “Evaluating the Benefits of Kinetic Monte Carlo and Microkinetic Modeling for Catalyst Design Studies in the Presence of Lateral Interactions”, <\/span>Catalysis Today <\/em>387<\/strong>, 150-158<\/span> [<\/span>DOI<\/a>], 2022<\/span>. Preprint available on ChemRxiv<\/a><\/span>.
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    2021<\/strong><\/h3><\/li>\n\n\n\n
  38. S. Daneshmandi, Y. Lyu, T. Salavati-fard, H. Yuan, M. Adnani, L. C. Grabow, C.-W. Chu, “Atomic Properties of Monoclinic Ag2<\/sub>Se Thin Film Grown on SrTiO3<\/sub> Substrate by Molecular Beam Epitaxy”, Journal of Physical Chemistry Letters<\/em> 12<\/strong>, 4140-4147 [DOI<\/a>], 2021<\/span>
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  39. K. Ahmadi, N. Dole, D. Wu, T. Salavati-fard, L. C. Grabow, F. R. Hernandez, and S. R. Brankovic, “Electroless Pb Monolayer Deposition \u2013 Prelude for Further Advances in Catalyst Monolayer Synthesis via Surface Limited Redox Replacement Reaction”, ACS Catalysis<\/em> 11,<\/strong> 4650-4659 [DOI<\/a>], 2021<\/span>
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  40. M. Adnani, M. Gooch, L. Deng, S. Agrestini, J. Herrero-Martin, H.C. Wu, C.K. Chang, T. Salavati-fard, N. Poudel, J. L. Garcia-Munoz, S. Daneshmandi, Z. Wu, L. C. Grabow, Y.C. Lai, H.D. Yang, E. Pellegrin, and C.-W. Chu, “Magnetocapacitance Effect and Magnetoelectric Coupling in Type-II Multiferroic HoFeWO6<\/sub>“, Physical Review B<\/em> 103<\/strong>, 094110 [DOI<\/a>], 2021<\/span><\/li>\n\n\n\n
  41. A. Mahdavi-Shakib, K. B. Sravan Kumar, T. N. Whittaker, T. Xie, L. C. Grabow, R. M Rioux, and B. D. Chandler, “Kinetics of H2<\/sub> Adsorption at the Metal-Support Interface of Au\/TiO2<\/sub> Catalysts probed by Broad Background IR Absorbance”, Angewandte Chemie <\/i>133<\/strong>, 7814-7822 [DOI<\/a>], Angewandte Chemie International Edition<\/i> 60<\/strong>, 7735-7743 [DOI<\/a>], 2021<\/span><\/li>\n\n\n\n
  42. M. Ambast, A. Gupta, B. Md. Mushfikur Rahman, L. C. Grabow, M P. Harold, “NOx<\/sub> Adsorption with CO and C2<\/sub>H4<\/sub> on Pd\/SSZ-13:  Experiments and Modeling”, Applied Catalysis B: Environmental <\/em>285<\/strong>, 119871 [DOI<\/a>], 2021<\/span>
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    2020<\/strong><\/h3><\/li>\n\n\n\n
  43. Y. Xu, L. C. Grabow, “Catalytic Encounters at the Molecular Level : Gabor A . Somorjai Award Symposium for Creative Research in Catalysis in Honor of Professor Manos Mavrikakis<\/span>“, Topics in Catalysis <\/i>63<\/strong>, 617 [DOI<\/a>], 2020<\/span><\/li>\n\n\n\n
  44. H. Demir, L. C. Grabow, “Enhancing Technological Applications through Density Functional Theory Modeling of Nanomaterials”, ACS Applied Nano Naterials <\/i>3<\/b>, 6127\u20136130 [DOI<\/a>], 2020<\/span><\/li>\n\n\n\n
  45. Y. Zhou, H. Thirumalai, S. K. Smith, K. H. Whitmire, J. Liu, A. I. Frenkel, L. C. Grabow, J. D. Rimer, “Ethylene Dehydroaromatization over Ga-ZSM-5 Catalysts: Nature and Role of Gallium Speciation\u201d, Angewandte Chemie<\/i> 132<\/strong>, 19760-19769 [DOI<\/a>], Angewandte Chemie International Edition <\/i>59<\/strong>, 19592-19601 [DOI<\/a>], 2020<\/span>
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  46. K. Rao, Y. Yao, L. C. Grabow, “Accelerated Modeling of Lithium Diffusion in Solid State Electrolytes using Artificial Neural Networks”, Advanced Theory and Simulations<\/i> 3<\/strong>, 2000097 [DOI<\/a>], 2020<\/span>. Preprint available in ChemRxiv<\/a><\/span><\/span><\/span>.<\/li>\n\n\n\n
  47. K. Mandal, Y. Gu, K. Westendorff, S. Li, J. Pihl, L. C. Grabow, W. Epling, C. Paolucci, “Condition-Dependent Pd Speciation and NO adsorption in Pd\/Zeolites”, ACS Catalysis<\/em> 10,<\/strong> 12801-12818 [DOI<\/a>], 2020<\/span>
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  48. T. Salavati-Fard, R. F. Lobo, L. C. Grabow, “Linking Low and High Temperature NO Oxidation Mechanisms over Br\u00f8nsted Acidic Chabazite to Dynamic Changes of the Active Site”, Journal of Catalysis <\/em>389<\/strong>, <\/em>195-206 [DOI<\/a><\/span>], 2020<\/span>
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  49. K. Rao, Q. K. Do, K. Pham, D. Maiti, L. C. Grabow, “Extendable Machine Learning Model for the Stability of Single Atom Alloys”, Topics in Catalysis <\/i>63<\/strong>, 728-741 [DOI<\/a>], 2020<\/span><\/li>\n\n\n\n
  50. K. B. S. Kumar, T. Whittaker, C. Peterson, L. C. Grabow, B. D. Chandler, “Water Poisons H2<\/sub> Activation at the Au-TiO2<\/sub> Interface by Suppressing Electron Transfer between Au and Titania”, Journal of the American Chemical Society<\/em><\/span> 142<\/span>, 5760-5772 [DOI<\/a>], 2020<\/span>
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  51. M. Ambast, K. Karinshak, B. Md. Mushfikur Rahman, L. C. Grabow, and M. P. Harold, “Passive NOx<\/sub> Adsorption on Pd\/H-ZSM-5: Experiments and Modeling”, Applied Catalysis B<\/em> 269<\/strong>, 118802<\/span> [DOI<\/a>], 2020<\/span>
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    2019<\/strong><\/h3><\/li>\n\n\n\n
  52. A. Mahdavi-Shakib, J.-M. Arce-Ramos, R. N. Austin, T. Schwartz, L. C. Grabow, B. Frederick, “Frequencies and Thermal Stability of Isolated Surface Hydroxyls on Pyrogenic TiO2<\/sub> Nanoparticles”, Journal of Physical Chemistry C<\/em> 123<\/strong>, 24533-24548 [DOI<\/a>], 2019<\/span><\/li>\n\n\n\n
  53. H. Thirumalai, J. D. Rimer, L. C. Grabow, “Quantification and Statistical Analysis of Errors Related to the Approximate Description of Active Site Models in Metal\u2010exchanged Zeolites”, ChemCatChem <\/i>11<\/b>, 5055-5067 [DOI<\/a>], 2019<\/span><\/li>\n\n\n\n
  54. Q. K. Do, H.-V. Tran, S. Wang, L. C. Grabow, “The Synergy of Dilute Pd and Surface Oxygen Species for Methane Upgrading on Au3<\/sub>Pd(111)”, Energy Technology<\/em>, 1900732 [DOI<\/a>], 2019<\/span><\/li>\n\n\n\n
  55. S. Husremovic, A. Mahdavi-Shakib, S. Banerjee, S. Ki, J. Glynn, L. Babb, J. Sempel, I. Stavrinoudis, J. M. Arce Ramos, L. C. Grabow, T. J. Schwartz, R. Nelson, A. Zangiabadi, K. Barmak, S. J. L. Billinge, B. G. Frederick, R. N. Austin, “Titania surface chemistry and its influence on supported metal catalysts”, Polyhedron<\/em> 170<\/strong>, 41-50 [DOI<\/a>], 2019<\/span><\/li>\n\n\n\n
  56. J. E. Bruno, N. S. Dwarica, A. H\u00fcther, K.B. Sravan Kumar, Z. Chen, C. S. Guzman, E. R. Hand, W. C. Moore, R. M. Rioux, L. C. Grabow, B. D. Chandler, “On the Limited Role of Electronic Support Effects in Selective Alkyne Hydrogenation: A Kinetic Study of Au\/MOx<\/sub> Catalysts Prepared from Oleylamine-Capped Colloidal Nanoparticles”, ChemCatChem<\/em> 11<\/strong>, 1650-1664 [DOI<\/a>], 2019 (featured in “A Decade of Catalysis brought to you by ChemPubSoc Europe”<\/a>)<\/span>
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    <\/p><\/li>\n\n\n\n

  57. P. Hu, Y. Zhang, X. Chi, K. Rao, F. Hao, H. Dong, F. Guo, Y. Ren, L.C. Grabow, Y. Yao, “Stabilizing the Interface between Sodium Metal Anode and Sulfide Solid-State Electrolyte with a Polymer-Cellulose Interlayer”, ACS Applied Materials & Interfaces<\/em> 11<\/strong>, 9672-9678 [DOI<\/a>], 2019<\/span>
    <\/div>

    2018<\/strong><\/h3><\/li>\n\n\n\n
  58. T. Whittaker, S. Kumar K. B., C. Peterson, M. Pollock, L. C. Grabow, B. D. Chandler, “H2<\/sub> Oxidation over Supported Au Nanoparticle Catalysts: Evidence for Heterolytic H2<\/sub> Activation at the Metal-Support Interface”, Journal of the American Chemical Society<\/em> 140<\/strong>, 16469\u201316487 [DOI<\/a>], 2018<\/span><\/li>\n\n\n\n
  59. Y. Song, L. C. Grabow, “Activity Trends for Catalytic CO and NO Co-Oxidation at Low Temperature Diesel Emission Conditions”, Industrial & Engineering Chemistry Research<\/em> 57<\/strong>, 12715\u201312725 [DOI<\/a>], 2018 (selected as cover artwork<\/a>)<\/span>
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  60. D. E. Schipper, Z. Zhao, H. Thirumalai, A. P. Leitner, S. L. Donaldson, A. Kumar, F. Qin, Z. Wang, L. C. Grabow, J. Bao, K. H. Whitmire, “Effects of Catalyst Phase on the Hydrogen Evolution Reaction of Water Splitting: Preparation of Phase-Pure Films of FeP, Fe2<\/sub>P, and Fe3<\/sub>P and their Relative Catalytic Activities”, Chemistry of Materials<\/em> 30<\/strong>, 3588\u20133598 [DOI<\/a>], 2018<\/span><\/li>\n\n\n\n
  61. S. Kasiraju, L. C. Grabow, “Learning from the past: Are catalyst design principles transferrable between hydrodesulfurization and deoxygenation?”, AIChE Journal<\/em> 64<\/strong>, 3121\u20133133 [DOI<\/a>], 2018<\/span><\/li>\n\n\n\n
  62. Y. Jangjou, Q. Do, Y. Gu, L.-G. Lim, H. Sun, D. Wang, A. Kumar, J. Li, L. C. Grabow, W. S. Epling, “On the nature of Cu active centers in Cu-SSZ-13 and their responses to SO2<\/sub> exposure”, ACS Catalysis<\/em> 8<\/strong>, 1325-1337 [DOI<\/a>], 2018<\/span><\/li>\n\n\n\n
  63. S. Guo, K. Heck, S. Kasiraju, H. Qian, Z. Zhao, L. C. Grabow, J. Miller, M. Wong, “Insights into Nitrate Degradation over Indium-decorated Palladium Nanoparticle Catalysts”, ACS Catalysis<\/em> 8<\/strong>, 503-515 [DOI<\/a>], 2018<\/span><\/li>\n\n\n\n
  64. K. A. Goulas, Y. Song, G. R. Johnson, J. P. Chen, A. A. Gokhale, L. C. Grabow, F. D. Toste, “Selectivity Tuning over Monometallic and Bimetallic Dehydrogenation Catalysts: Effects of Support and Particle Size “, Catalysis Science & Technology<\/em> 8<\/strong>, 314-327 [DOI<\/a>], 2018<\/span>
    <\/div>

    2017<\/strong><\/h3><\/li>\n\n\n\n
  65. Z. Zhao, F. Qin, S. Kasiraju, L. Xie, Md K. Alam, S. Chen, D. Wang, Z. Ren, Z. Wang, L. C. Grabow, J. Bao, “Vertically Aligned MoS2<\/sub>\/Mo2<\/sub>C hybrid Nanosheets Grown on Carbon Paper for Efficient Electrocatalytic Hydrogen Evolution”, ACS Catalysis<\/em> 7<\/strong>, 7312-7318 [DOI<\/a>], 2017<\/span><\/li>\n\n\n\n
  66. Q. Yuan, H. A. Doan, L. C. Grabow, S. R. Brankovic, “Finite Size Effects in Sub-Monolayer Catalysts investigated by CO Electrosorption on PtsML<\/sub>\/Pd(100)”, Journal of the American Chemical Society<\/em> 139<\/strong>, 13676\u201313679 [DOI<\/a>], 2017<\/span><\/li>\n\n\n\n
  67. Z. Zhao, D. E. Schipper, A. Leitner, H. Thirumalai, J.-H. Chen, L. Xie, F. Qin, M. Alam, L. C. Grabow, S. Chen, D. Wang, Z. Ren, Z. Wang, K. Whitmire, J. Bao, “Bifunctional Metal Phosphide FeMnP Nanoplatelets from Single Source Metal Organic Chemical Vapour Deposition for Efficient Overall Water Splitting”, Nano Energy<\/em> 39<\/strong>, 444-453 [DOI<\/a>], 2017<\/span><\/li>\n\n\n\n
  68. T. O. Omotoso, B. Baek, L. C. Grabow, S. P. Crossley, “Experimental and First-Principles Evidence for Interfacial Activity of Ru\/TiO2<\/sub> for the Direct Conversion of m-Cresol to Toluene”, ChemCatChem<\/em> 9<\/strong>, 2642-2651 [DOI<\/a>], 2017 (selected as cover artwork<\/a> and profile<\/a>)<\/span>
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    <\/p><\/li>\n\n\n\n

  69. M.-F. Hsieh, Y. Zhou, H. Thirumalai, L. C. Grabow, J. D. Rimer, “Ag-promoted Dehydroaromatization of Ethylene over ZSM-5 Catalysts”, ChemCatChem<\/em> 9<\/strong>, 1675-1682 [DOI<\/a>], 2017<\/span><\/li>\n\n\n\n
  70. H. A. Doan, M. K. Sharma, W. S. Epling, L. C. Grabow, “From Active Site Models to Real Catalysts: Importance of the Material Gap in the Design of Pd Catalysts for Methane Oxidation”, ChemCatChem<\/em> 9<\/strong>, 1594-1600 [DOI<\/a>], 2017 (selected as cover artwork<\/a> and profile<\/a>)<\/span>
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    <\/p><\/li>\n\n\n\n

  71. B. Baek, A. Aboiralor, J. D. Massa, S. Wang, P. Kharidehal, L. C. Grabow, “Strategy to Improve Catalytic Trend Predictions for Methane Oxidation and Reforming”, AIChE Journal<\/em> 63<\/strong>, 66-77 [DOI<\/a>], 2017<\/span>
    <\/div>

    2016<\/strong> <\/h3><\/li>\n\n\n\n
  72. M. D. Oleksiak, A. Ghorbanpour, M. T. Conato, B. P. McGrail, L. C. Grabow, R. K. Motkuri, J. D. Rimer, “Novel Synthesis Strategies for Ultrastable Zeolite GIS Polymorphs as Sorbents for Selective Separations”, Chemistry – A European Journal<\/em> 22<\/strong>, 16078-16088 [DOI<\/a>], 2016 (selected as cover artwork<\/a> and profile<\/a>)<\/span>
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    <\/p><\/li>\n\n\n\n

  73. H. V. Tran, H. A. Doan, B. D. Chandler, L. C. Grabow, “Water-assisted oxygen activation during selective oxidation reactions”, Current Opinion in Chemical Engineering<\/em> 13<\/strong>, 100-108 [DOI<\/a>], 2016<\/span><\/li>\n\n\n\n
  74. J. Shuai, H. D. Yoo, Y. Liang, Y. Li, Y. Yao, L. C. Grabow, “Density Functional Theory Study of Li, Na, and Mg Intercalation and Diffusion in MoS2<\/sub> with Controlled Interlayer Spacing”, Materials Research Express<\/em> 3<\/strong>, 064001 [DOI<\/a>], 2016<\/span><\/li>\n\n\n\n
  75. K. A. Goulas, S. Sreekumar, Y. Song, P. Kharidehal, G. Gunbas, P. J. Dietrich, G. R. Johnson, Y. C. Wang, A. M. Grippo, L. C. Grabow, A. A. Gokhale, D. F. Toste, “Synergistic Effects in Bimetallic Palladium-Copper Catalysts Improve Selectivity in Oxygenate Coupling Reactions”, Journal of the American Chemical Society<\/em> 138<\/strong>, 6805-6812 [DOI<\/a>], 2016<\/span><\/li>\n\n\n\n
  76. A. Ghorbanpour, J. D. Rimer, L. C. Grabow, “Computational Assessment of the Dominant Factors Governing the Mechanism of Methanol Dehydration over H-ZSM-5 with Heterogeneous Al Distribution”, ACS Catalysis<\/em> 6<\/strong>, 2287\u20132298 [DOI<\/a>], 2016<\/span>
    <\/div>

    2015<\/strong> <\/h3><\/li>\n\n\n\n
  77. R. Nelson, B. Baek, P. Ruiz, B. Goundie, A. Brooks, M. C. Wheeler, B. G. Frederick, L. C. Grabow, R. Narehood Austin, “Experimental And Theoretical Insights Into The Hydrogen-Efficient Direct Hydrodeoxygenation Mechanism Of Phenol Over Ru\/TiO2<\/sub>“, ACS Catalysis<\/em> 5<\/strong>, 6509\u20136523 [DOI<\/a>], 2015<\/span><\/li>\n\n\n\n
  78. J. Arce-Ramos, L. C. Grabow, B. Handy, M.-G. Cardenas-Galindo, “Nature of acid sites in silica-supported zirconium oxide: a combined experimental and periodic DFT study”, The Journal of Physical Chemistry C<\/em> 119<\/strong>, 15150\u201315159 [DOI<\/a>], 2015<\/span><\/li>\n\n\n\n
  79. A. Ghorbanpour, A. Gumidyala, L. C. Grabow, S. P. Crossley, J. D. Rimer, “Epitaxial Growth of ZSM-5@Silicalite-1: A Core-Shell Zeolite Designed with Passivated Surface Acidity”, ACS Nano<\/em> 9<\/strong>, 4006\u20134016 [DOI<\/a>], 2015<\/span><\/li>\n\n\n\n
  80. L. C. Grabow, Q. Yuan, H. A. Doan, S. R. Brankovic, “Novel 2D RuPt Core-Edge Nanocluster Catalyst for CO Electro-oxidation”, Surface Science<\/em> 640<\/strong>, 50-58 [DOI<\/a>], 2015, featured as cover page image<\/span>
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    <\/p><\/li>\n\n\n\n

  81. Y. Liang, H. D. Yoo, Y. Li, J. Shuai, H. A. Calderon, Francisco C. Robles Hernandez, L. C. Grabow, Y. Yao, “Interlayer-Expanded Molybdenum Disulfide Nanocomposites for Electrochemical Magnesium Storage”, Nano Letters<\/em> 15<\/strong>, 2194\u20132202 [DOI<\/a>], 2015<\/span>
    <\/div>

    2014<\/strong><\/h3><\/li>\n\n\n\n
  82. J. Saavedra, H. A. Doan, C. J. Pursell, L. C. Grabow, B. D. Chandler, “The critical role of water at the gold-titania interface in catalytic CO oxidation”, Science<\/em> 345<\/strong>, 1599-1602 [DOI<\/a>], 2014<\/span><\/li>\n\n\n\n
  83. A. Ghorbanpour, J. D. Rimer, L. C. Grabow, \u201cPeriodic, vdW-corrected density functional theory investigation of the effect of Al siting in H-ZSM-5 on chemisorption properties and site-specific acidity\u201d, Catalysis Communications <\/em>52<\/strong>, 98-102 [DOI<\/a>], 2014<\/span><\/li>\n\n\n\n
  84. P. G. Moses, L. C. Grabow, E. M. Fernandez, B. Hinnemann, H. Tops\u00f8e, K. G. Knudsen, J. K. N\u00f8rskov, “Trends in hydrodesulfurization catalysis based on realistic surface models\u201d, Catalysis Letters<\/em> 144<\/strong>, 1425\u20131432 [DOI<\/a>] , 2014<\/span><\/li>\n\n\n\n
  85. P. Rubert-Nason, M. Mavrikakis, C. T. Maravelias, L. C. Grabow, L. T. Biegler, \u201cAdvanced solution methods for microkinetic models of catalytic reactions: A methanol synthesis case study\u201d, AIChE Journal<\/em> 60<\/strong>, 1336-1346 [DOI<\/a>], 2014<\/span>
    <\/div>

    2013<\/strong> <\/h3><\/li>\n\n\n\n
  86. H. Zeuthen, W. Kudernatsch, G. Peng, L. R. Merte, L. K. Ono, L. Lammich, Y. Bai, L. C. Grabow, M. Mavrikakis, S. Wendt, F. Besenbacher, \u201cStructure of Stoichiometric and Oxygen-Rich Ultrathin FeO(111) Films Grown on Pd(111)\u201d ,The Journal of Physical Chemistry C<\/em> 117<\/strong>, 15155-15163 [DOI<\/a>], 2013<\/span><\/li>\n\n\n\n
  87. J. Varley, H. A. Hansen, N. Ammitzb\u00f8ll, L. C. Grabow, A. A. Peterson, J. Rossmeisl, J. K. N\u00f8rskov, \u201cNi-Fe-S cubanes in CO2 reduction electrocatalysis: A DFT study\u201d, ACS Catalysis<\/em> 3<\/strong>, 2640-2643 [DOI<\/a>], 2013<\/span>
    <\/div>

    2012<\/strong> <\/h3><\/li>\n\n\n\n
  88. A. A. Peterson, L. C. Grabow, T. P. Brennan, B. Shong, C. Ooi, D. M. Wu, C. W. Li, A. Kushwaha, A. J. Medford, F. Mbuga, L. Li, J. K. N\u00f8rskov, \u201cFinite-size effects in O and CO adsorption for the late transition metals\u201d, Topics in Catalysis<\/em> 55<\/strong>, 1276-1282 [DOI<\/a>], 2012<\/span><\/li>\n\n\n\n
  89. B. D. Chandler, S. Kendell, H. Doan, R. Korkosz, L. C. Grabow, C. J. Pursell, “NaBr Poisoning of Au\/TiO2<\/sub> Catalysts: Effects on Kinetics, Poisoning Mechanism, and Estimation of the Number of Catalytic Active Sites”, ACS Catalysis<\/em> 2<\/strong>\u200b, 684-694 [DOI<\/a>], 2012<\/span><\/li>\n\n\n\n
  90. L. C. Grabow, “When Outliers Make All The Difference”, ChemCatChem<\/em> 4<\/strong>, 1887-1888 [DOI<\/a>], 2012<\/span><\/li>\n\n\n\n
  91. L. C. Grabow, B. Hvolb\u00e6k, H. Falsig, J. K. N\u00f8rskov, “Search Directions for Direct H2O2 Synthesis Catalysts Starting from Au12<\/sub> Nanoclusters”, Topics in Catalysis<\/em> 55<\/strong>, 336-344 [DOI<\/a>], 2012<\/span><\/li>\n\n\n\n
  92. L. R. Merte, G. Peng, R. Bechstein, F. Rieboldt, C. A. Farberow, L. C. Grabow, W. Kudernatsch, S. Wendt, E. Laegsgaard, M. Mavrikakis, F. Besenbacher, “Water-Mediated Proton Hopping on an Iron Oxide Surface”, Science<\/em> 336<\/strong>\u200b, 889-893 [DOI<\/a>], 2012<\/span>
    <\/div>

    2011<\/strong><\/h3><\/li>\n\n\n\n
  93. L. C. Grabow, F. Studt, F. Abild-Pedersen, V. Petzold, J. Kleis, T. Bligaard, J. K. N\u00f8rskov, \u201cDescriptor-based Analysis applied to HCN synthesis from NH3<\/sub> and CH4<\/sub>\u201d, Angewandte Chemie International Edition<\/em> 50<\/strong>, 4601-4605, Angewandte Chemie<\/em> 123<\/strong>, 4697-4701 [DOI<\/a>], 2011<\/span><\/li>\n\n\n\n
  94. L. C. Grabow, M. Mavrikakis, \u201cOn the mechanism of methanol synthesis on Cu through CO and CO2<\/sub> hydrogenation\u201d, ACS Catalysis<\/em> 1<\/strong>, 365-384 [DOI<\/a>], 2011 (As of March\/April 2016, this highly cited paper received enough citations to place it in the top 1% of the academic field of Chemistry based on a highly cited threshold for the field and publication year. Data from Essential Science Indicators\u2120<\/a>)<\/span>
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    <\/p><\/li>\n\n\n\n

  95. L. R. Merte, J. Knudsen, F. M. Eichhorn, S. Porsgaard, H. Zeuthen, L. C. Grabow, E. L\u00e6gsgaard, H. Bluhm, M. Salmeron, M. Mavrikakis, F. Besenbacher, \u201cCO-induced embedding of Pt adatoms in a partially-reduced FeOx<\/sub> film on Pt(111)\u201d, Journal of the American Chemical Society<\/em> 133<\/strong>, 10692-10695 [DOI<\/a>], 2011<\/span><\/li>\n\n\n\n
  96. L. R. Merte, L. C. Grabow, G. Peng, J. Knudsen, H. Zeuthen, W. Kudernatsch, S. Porsgaard, E. L\u00e6gsgaard, M. Mavrikakis, F. Besenbacher, \u201cTip-Dependent Scanning Tunneling Microscopy Imaging of Ultrathin FeO Films on Pt(111)\u201d, The Journal of Physical Chemistry C<\/em> 115<\/strong>, 2089-2099 [DOI<\/a>], 2011<\/span>
    <\/div>

    2010<\/strong> <\/h3><\/li>\n\n\n\n
  97. J. Knudsen, L. R. Merte, L. C. Grabow, F. M. Eichhorn, S. Porsgaard, H. Zeuthen, R. T. Vang, E. L\u00e6gsgaard, M. Mavrikakis, F. Besenbacher, \u201cReduction of FeO\/Pt(111) thin films by exposure to atomic hydrogen\u201d, Surface Science<\/em> 604<\/strong>, 11-20 [DOI<\/a>], 2010<\/span><\/li>\n\n\n\n
  98. L. C. Grabow, B. Hvolb\u00e6k, J. K. N\u00f8rskov, \u201cUnderstanding trends in catalytic activity: The effect of adsorbate-adsorbate interactions for CO oxidation over transition metals\u201d, Topics in Catalysis<\/em> 53<\/strong>, 298-310 [DOI<\/a>], 2010<\/span><\/li>\n\n\n\n
  99. S. Wang, B. Temel, G. Jones, L. C. Grabow, F. Studt, T. Bligaard, F. Abild-Pedersen, C. Christensen, J. K. N\u00f8rskov, \u201cUniversal Br\u00f8nsted-Evans-Polanyi Relations for C-C, C-O, CN, N-O, N-N, and O-O Dissociation Reactions\u201d, Catalysis Letters<\/em> 141<\/strong>, 370-373 [DOI<\/a>], 2010<\/span>
    <\/div>

    2009<\/strong><\/h3><\/li>\n\n\n\n
  100. L. C. Grabow, J. J. Uhlrich, T. F. Kuech, M. Mavrikakis, \u201cEffectiveness of in-situ NH3<\/sub> annealing treatments for the removal of oxygen from GaN(0001) surfaces\u201d Surface Science<\/em> 603<\/strong>, 387-399 [DOI<\/a>], 2009<\/span><\/li>\n\n\n\n
  101. L. R. Merte, J. Knudsen, L. C. Grabow, R. T. Vang, E. L\u00e6gsgaard, M. Mavrikakis, F. Besenbacher, \u201cCorrelating STM contrast and atomic-scale structure by chemical modification: Vacancy dislocation loops on FeO\/Pt(111)\u201d, Surface Science Letters<\/em> 603<\/strong>, L15-L18 [DOI<\/a>], 2009<\/span>
    <\/div>

    2008<\/strong><\/h3> <\/li>\n\n\n\n
  102. J.J. Uhlrich, L. C. Grabow, M. Mavrikakis, T. F. Kuech, \u201cPractical Surface Treatments and Surface Chemistry of n-Type and p-Type GaN\u201d, Journal of Electronic Materials<\/em> 37<\/strong>, 439-447 [DOI<\/a>], 2008<\/span><\/li>\n\n\n\n
  103. L. C. Grabow, A. A. Gokhale, S. Evans, J. A. Dumesic, M. Mavrikakis, \u201cMechanism of the water gas shift reaction on Pt: First principles, experiments, and microkinetic modeling\u201d, The Journal of Physical Chemistry C<\/em> 112<\/strong>, 4608-4617 [DOI<\/a>], 2008<\/span><\/li>\n\n\n\n
  104. L. C. Grabow, M. Mavrikakis, \u201cNanocatalysis Beyond the Gold-Rush Era\u201d, Angewandte Chemie International Edition<\/em> 47<\/strong>, 7390-7392 [DOI<\/a>], Angewandte Chemie<\/em> 120<\/strong>, 7500-7502 [DOI<\/a>], 2008<\/span><\/li>\n\n\n\n
  105. N. Schumacher, K. Andersson, L. C. Grabow, M. Mavrikakis, J. Nerlov, I. Chorkendorff, \u201cInteraction of carbon dioxide with Cu overlayers on Pt(111)\u201d, Surface Science<\/em> 602<\/strong>, 702-711 [DOI<\/a>], 2008<\/span><\/li>\n\n\n\n
  106. S. Seo, L. C. Grabow, M. Mavrikakis, R. J. Hamers, N. J. Thompson, P. Evans, \u201cMolecular-scale structural distortions near vacancies in pentacene\u201d, Applied Physics Letters<\/em> 92<\/strong>, 153313 [DOI<\/a>], 2008<\/span>
    <\/div>

    2006<\/strong><\/h3><\/li>\n\n\n\n
  107. L. C. Grabow, Y. Xu, M. Mavrikakis, \u201cLattice strain effects on the CO oxidation on Pt(111)\u201d, Physical Chemistry Chemical Physics<\/em> 8<\/strong>, 3369-3374 [DOI<\/a>], 2006, featured as cover page image<\/span>
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    <\/div>

    2005<\/strong><\/h3><\/li>\n\n\n\n
  108. N. Schumacher, A. Boisen, S. Dahl, A. A. Gokhale, S. Kandoi, L. C. Grabow, J. A. Dumesic, M. Mavrikakis, I. Chorkendorff, \u201cTrends in low temperature water-gas shift reactivity on transition metals\u201d, Journal of Catalysis<\/em> 229<\/strong>, 265-275 [DOI<\/a>], 2005<\/span>
    <\/div>

    2004<\/strong><\/h3> <\/li>\n\n\n\n
  109. S. Kandoi, A. A. Gokhale, L. C. Grabow, J. A. Dumesic, M. Mavrikakis, \u201cWhy Au and Cu Are More Selective Than Pt for Preferential Oxidation of CO at Low Temperature\u201d, Catalysis Letters<\/em> 93<\/strong>, 93-100 [DOI<\/a>], 2004<\/span><\/li>\n<\/ol>\n\n\n\n
    \n
    \n
    \n

    Book Chapters<\/h2>\n
      \n
    1. \n
        \n
      1. Lars C. Grabow, \u201cComputational Catalyst Screening\u201d in \u201cComputational Catalysis\u201d edited by A. Asthagiri and M. J. Janik.\u00a0RSC Catalysis Series<\/em>, Cambridge, UK [DOI<\/a>], 2014<\/span><\/li>\n<\/ol>\n<\/li>\n<\/ol>\n<\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

        2026 Book Chapters Lars C. Grabow, \u201cComputational Catalyst Screening\u201d in \u201cComputational Catalysis\u201d edited by A. Asthagiri and M. J. Janik.\u00a0RSC Catalysis Series, Cambridge, UK [DOI], 2014<\/p>\n","protected":false},"author":2,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"site-sidebar-layout":"default","site-content-layout":"default","ast-site-content-layout":"default","site-content-style":"default","site-sidebar-style":"default","ast-global-header-display":"","ast-banner-title-visibility":"","ast-main-header-display":"","ast-hfb-above-header-display":"","ast-hfb-below-header-display":"","ast-hfb-mobile-header-display":"","site-post-title":"","ast-breadcrumbs-content":"","ast-featured-img":"","footer-sml-layout":"","ast-disable-related-posts":"","theme-transparent-header-meta":"default","adv-header-id-meta":"","stick-header-meta":"","header-above-stick-meta":"","header-main-stick-meta":"","header-below-stick-meta":"","astra-migrate-meta-layouts":"set","ast-page-background-enabled":"default","ast-page-background-meta":{"desktop":{"background-color":"var(--ast-global-color-4)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"tablet":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"mobile":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""}},"ast-content-background-meta":{"desktop":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"tablet":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"mobile":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""}},"footnotes":""},"class_list":["post-59","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/grabow.chee.uh.edu\/index.php?rest_route=\/wp\/v2\/pages\/59","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/grabow.chee.uh.edu\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/grabow.chee.uh.edu\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/grabow.chee.uh.edu\/index.php?rest_route=\/wp\/v2\/users\/2"}],"replies":[{"embeddable":true,"href":"https:\/\/grabow.chee.uh.edu\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=59"}],"version-history":[{"count":497,"href":"https:\/\/grabow.chee.uh.edu\/index.php?rest_route=\/wp\/v2\/pages\/59\/revisions"}],"predecessor-version":[{"id":4954,"href":"https:\/\/grabow.chee.uh.edu\/index.php?rest_route=\/wp\/v2\/pages\/59\/revisions\/4954"}],"wp:attachment":[{"href":"https:\/\/grabow.chee.uh.edu\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=59"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}