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Surface Electrochemistry and Electrocatalysis

2021

  • Determine Oxidation State of Transition Metals in Molten Salt Corrosion using Electron Energy Loss Spectroscopy, K. Bawane, P. Manganaris, Y. Wang, J. Sure, A. Ronne, P. Halstenberg, S. Dai, S. K. Gillf, K. Sasaki, Y. K. Chen-Wiegart, R. Gakharh, S. Mahurind, S. M. Pimblotti, J. F. Wishart, L. He, accepted to Scripta Materialia.
  • Rhombohedral Ordered Intermetallic Nanocatalyst Boosts the Oxygen Reduction Reaction, X. Zhao, H. Cheng, L. Song, L. Han, R. Zhang, G. Kwon, L. Ma, S. Ehrlich, A. I. Frenkel, J. Yang, K. Sasaki, H. L. Xin, ACS Catalysis, 11 (2021) 184-192; DOI:10.1021/acscatal.0c04021.
  • Investigating Corrosion Behavior of Ni and Ni-20Cr in Molten ZnCl2, S. K. Gill, J. Sure, Y. Wang, B. Layne, L. He, S. Mahurin, J. F. Wishart, K. Sasaki, Corrosion Science, 179 (2021) 109105; DOI:10.1016/j.corsci.2020.109105.
  • Substoichiometric Tuning of the Electronic Properties of Titania, C. N. Bell, D.-C. Lee, M. N. Drexler, C. M. Rouleau, K. Sasaki, S. D. Senanayake, M. D. Williams, F. M. Alamgir, Thin Solid Films,717 (2021) 138437; DOI: 10.1016/j.tsf.2020.138437.

2020

  • High-Performance Nitrogen-doped Intermetallic PtNi Catalyst for the Oxygen Reduction Reaction, X. Zhao, C. Xi, Cong, R. Zhang, L. Song, C. Wang, J. Spendelow, A. Frenkel, J. Yang, H. Xin, K. Sasaki, ACS Catalysis, 10 (2020) 10637–10645, DOI: 10.1021/acscatal.0c03036.
  • Structure and Dynamics of the Molten Alkali-Chloride Salts from an X-ray, Simulation, and Rate Theory Perspective, S. Roy, F. Wu, H. Wang, A. S. Ivanov, S. Sharma, P. Halstenberg, S. K. Gill, M. Abeykoon, G. Kwon, M. Topsakal, B. Layne, K. Sasaki, Y. Zhang, S. M. Mahurin, S. Dai, C. J. Margulis, E. J. Maginn, and V. S. Bryantsev, Physical Chemistry Chemical Physics,22 (2020) 22900-22917, DOI:10.1039/d0cp03672b.
  • Exploring Electrocatalytic Stability and Activity of Unmodified and Platinum-modified Tungsten and Niobium Nitrides, S. R. Denny, B. M. Tackett, D. Tian, K. Sasaki, J. G. Chen, International Journal of Hydrogen Energy, 45 (2020) 22883-22892; DOI: 10.1016/j.ijhydene.2020.06.186.
  • Designing high performance Pt monolayer core–shell electrocatalysts for fuel cells, K. Sasaki, K. A. Kuttiyiel, R. R. Adzic, Current Opinion in Electrochemistry, 21 (2020) 368-375; DOI:10.1016/j.coelec.2020.03.020.
  • Enhancing Oxygen Reduction Performance of Pt Monolayer Catalysts by Pd(111) Nanosheets on WNi Substrate, L. Song, Z. X. Liang, K. Nagamori, H. Igarashi, M. B. Vukmirovic, R. R. Adzic,K. Sasaki, ACS Catalysis, 10 (7) (2020) 4290-4298; DOI:10.1021/acscatal.0c00040.
  • Revealing 3D Morphological and Chemical Evolution Mechanisms of Metals in Molten Salt by Multimodal Microscopy, A. Ronne, L. F. He, D. Dolzhnikov, Y. Xie, M. Y. Ge, P. Halstenberg, Y. C. Wang, B.T. Manard, X. H. Xiao, W. K. Lee, K. Sasaki, S. Dai, S. M. Mahurin, Y. C. K. Chen-Wiegart, ACS Applied Materials & Interfaces, 12(15) (2020) 17321-17333; DOI: 10.1021/acsami.9b19099.
  • Enhancing ORR Performance of Bimetallic PdAg Electrocatalysts by Designing Interactions between Pd and Ag, L. E. Betancourt, A. Rojas-Perez, I. Orozco, A. I. Frenkel, Y.Y. Li, K. Sasaki, S.D. Senanayake, C. R. Cabrera, ACS Applied Energy Materials, 3(3), (2020) 2342-2349; DOI: 10.1021/acsaem.9b01920.
  • Hysteresis effects and roughness suppression efficacy of polyethylenimine additive in Cu electrodeposition in ethaline, Nora A. Shaheen, Ijjada Mahesh, Miomir B. Vukmirovic, Rohan Akolkar, Electrochemistry Communications 115 (2020) 106721; DOI:10.1016/j.elecom.2020.106721.
  • Copper Electrodeposition from Deep Eutectic Solvents-Voltammetric Studies Providing Insights into the Role of Substrate: Platinum vs Glassy Carbon, Miomir B. Vukmirovic, Radoslav R. Adzic, and Rohan Akolkar, J. Phys. Chem. B 124 (2020) 5465-5475; DOI:10.1021/acs.jpcb.0c02735.
  • Mechanism of Electrochemical Oxidation of Nitroxide Radicals in Ethaline Deep Eutectic Solvent, Nora A. Shaheen, Mahesh Ijjada, Miomir B. Vukmirovic and Rohan Akolkar, J. Electrochem. Soc. 167 (2020) 143505; DOI: 10.1149/1945-7111/abc439.
  • Platinum and Palladium Monolayer Electrocatalysts for Formic Acid Oxidation, Zhixiu Liang, Liang Song, Ahmed O. Elnabawy, Nebojsa Marinkovic, Manos Mavrikakis & Radoslav R. Adzic, Topics in Catalysis volume 63, pages742–749(2020); DOI:10.1007/s11244-020-01264-5.
  • NbOx nano-nail with a Pt head embedded in carbon as a highly active and durable oxygen reduction catalyst, Zhong Ma, Shuang Li, Lijun Wu, Liang Song, Gaopeng Jiang, Zhixiu Liang, Dong Su, Yimei Zhu, Radoslav R. Adzic, Jia X. Wang, Zhongwei Chen, Nano Energy 69 (2020) 104455, DOI:10.1016/j.nanoen.2020.104455.

2019

  • Quantitative Nanoscale 3D Imaging of Intergranular Corrosion of 304 Stainless Steel using Hard X-Ray Nanoprobe, S. K. Gill, M. Ge, H. Yan, K. Sasaki, Z. Liang, H. Isaacs, K. Kisslinger, L. Ecker, Y. S. Chu, Journal of The Electrochemical Society, 166(11), (2019) C3320-C3325; DOI: 10.1149/2.0401911jes.
  • Significance of an anion effect in the selective oxidation of Ce3+ to Ce4+ over a porous WO3 photoanode S. Takasugi, Y. Miseki, K. Sasaki, E. Fujita, K. Sayama, Electrochim Acta, 307(1), (2019) 369-374, DOI:10.1016/j.electacta.2019.03.178.
  • Understanding the Role of Complexation in the Charge-Transfer Kinetics of the Cu2+ + e↔Cu1+ Redox Reaction in Ethaline Deep Eutectic Solvent, Dai Shen, Miomir B. Vukmirovic, and Rohan Akolkar, J. Electrochem. Soc., 166 (15) E526-E532 (2019), DOI: 10.1149/2.1211915jes.
  • Optimizing PtFe intermetallics for oxygen reduction reaction: from DFT screening to in situ XAFS characterization, Mingxing Gong, Jing Zhu, Mingjie Liu, Peifang Liu, Zhiping Deng, Tao Shen, Tonghui Zhao, Ruoqian Lin, Yun Lu, Shize Yang, Zhixiu Liang, Seong Min Bak, Eli Stavitski, Qin Wu, Radoslav R. Adzic, Huolin L. Xin, and Deli Wang, Nanoscale, 2019, 11, 20301-20306, DOI: 10.1039/c9nr04975d.
  • Direct 12-Electron Oxidation of Ethanol on a Ternary Au(core)-PtIr(Shell) Electrocatalyst, Zhixiu Liang, Liang Song, Shiqing Deng, Yimei Zhu, Eli Stavitski, Radoslav R. Adzic, Jingyi Chen, and Jia X. Wang, J. Am. Chem. Soc. (2019) 141, 9629–9636, DOI:10.1021/jacs.9b03474.
  • Pt-Based Catalysts for Electrochemical Oxidation of Ethanol, Nebojsa S. Marinkovic, Meng Li and Radoslav R. Adzic, Topics in Current Chemistry (2019) 377:11, DOI:10.1007/s41061-019-0236-5.
  • Platinum Monolayer Electrocatalysts for Methanol Oxidation, Meng Li, Kurian Kuttiyiel, Fang Lu, Oleg Gang, and Radoslav R. Adzic, Journal of The Electrochemical Society, 166 (7) F3300-F3304 (2019), DOI:10.1149/2.0321907jes.
  • Atomically Dispersed Molybdenum Catalysts for Efficient Ambient Nitrogen Fixation, Lili Han, Xijun Liu, Jinping Chen, Ruoqian Lin, Haoxuan Liu, Fang Lü, Seongmin Bak, Zhixiu Liang, Shunzheng Zhao, Eli Stavitski, Jun Luo, Radoslav R. Adzic, and Huolin L. Xin, Angew. Chem. Int. Ed. 2019, 58, 2321 –2325, DOI:10.1002/anie.201811728.
  • Infrared spectroelectrochemical configurations for in situ measurements, Nebojsa S. Marinkovic and Radoslav R. Adzic, J. Serb. Chem. Soc. 84 (11) 1235–1247 (2019), DOI:10.2298/JSC190828103M.

2018

  • Core-shell structuring of pure metallic aerogels towards highly efficient Pt utilization for the oxygen reduction reaction, Bin Cai, René Hübner, Kotaro Sasaki,Yuanzhe Zhang, Dong Su, Christoph Ziegler, Miomir B. Vukmirovic, Bernd Rellinghaus, Radoslav R. Adzic, and Alexander Eychmüller, Angewandte Chemie (International ed.), 2018, 57, 2963-2966.
  • Enhanced Oxygen Reduction Reaction Activity on Pt-Monolayer-Shell PdIr/Ni-core Catalysts, Liang Song, Miomir B. Vukmirovic, Radoslav R. Adzic, ECS Transactions, 2018, 85 (12), 57-65.
  • Electrochemical CO2 reduction on oxide-derived Cu surface with various oxide thicknesses, Zhixiu Liang, Jie Fu, Miomir B. Vukmirovic, Radoslav R. Adzic, ECS Transactions, 2018, 85 (12), 195-199.
  • Enhanced Oxygen Reduction Reaction Activity on Pt-Monolayer-Shell PdIr/Ni-core Catalysts, Liang Song, Zhixiu Liang, Miomir B. Vukmirovic, Radoslav R. Adzic, Journal of the Electrochemical Society, 2018, 165 (15), J3288-J3294.
  • Reaction Mechanism for Oxygen Evolution on RuO2, IrO2, and RuO2@IrO2 Core-Shell Nanocatalysts, Zhong Ma, Yu Zhang, Shizhong Liu, Wenqian Xu, Lijun Wu, Yu-Chi Hsieh, Ping Liu, Yimei Zhu, Kotaro Sasaki, Radoslav R. Adzic, Julie N. Renner, Katherine E. Ayers, and Jia X. Wang, Journal of Electroanalytical Chemistry, 2018, 819, 296-305.
  • Temperature-Dependent Kinetic Study of Ammonia Oxidation Reaction on Gas Diffusion Electrodes in NH3-Saturated 1 M KOH Solutions, Z. Liang, L. Song, Z. Ma, Y. Zhang, R. R. Adzic, and J. X. Wang, ECS Transactions, 2018, 85 (12) 161-165.
  • CuPt and CuPtRu Nanostructures for Ammonia Oxidation Reaction, R. H. Manso, L. Song, Z. Liang, J. X. Wang, and J. Chen, ECS Transactions, 2018, 85 (12), 177-182.
  • Oxygen Reduction on Gold Nanocrystal Surfaces in Alkaline Electrolyte: Evidence for Surface Proton Transfer Effects, Yu Zhanga, Fang Lu, Shizhong Liu, Deyu Lu, Dong Su, Mingzhao Liu, Yugang Zhang, Ping Liu, Jia X. Wang, Radoslav R. Adzic, and Oleg Gang, ECS Transactions, 2018, 85 (12), 93-110.
  • Highly Dispersed Carbon Supported PdNiMo Core with Pt Monolayer Shell Electrocatalysts for Oxygen Reduction Reaction, C. Okoli, K. A. Kuttiyiel, K. Sasaki, D. Su, D. Kuila, D. Mahajan, and R. R. Adzic, the Journal of The Electrochemical Society, 2018, 165 (15), J3295-J3300.
  • Determination of Single- and Multi- Component Nanoparticle Sizes by X-ray Absorption Spectroscopy, N. S. Marinkovic, K. Sasaki, R. R. Adzic, the Journal of The Electrochemical Society, 2018, 165 (15), J3222-J3230.
  • Correlating the Electrocatalytic Stability of Platinum Monolayer Catalysts to Their Structural Evolution in the Oxygen Reduction Reaction, G. Chen, K. A. Kuttiyiel, M. Li, D. Su, L. Du, C. Du, Y. Gao, W. Fei, G. Yin, K. Sasaki, and R. R. Adzic, Journal of Materials Chemistry A, 2018, 6, 20725-20736.
  • Au-doped Stable L10 Structured Platinum Cobalt Ordered Intermetallic Nanoparticle Catalysts for Enhanced Electrocatalysis, K. A. Kuttiyiel, S. Kattel, S. Cheng, J. H. Lee, L. Wu, Y. Zhu, G.-G. Park, P. Liu, K. Sasaki, J. G. Chen, R. R. Adzic, ACS Applied Energy Materials, 2018, 1, 3771-3777.
  • Highly Dispersed Carbon Supported PdNiMo Core with Pt Monolayer Shell Electrocatalysts for Oxygen Reduction Reaction, C. Okoli, K. A. Kuttiyiel, K. Sasaki, D. Su, D. Kuila, D. Mahajan, and R. R. Adzic, ECS Transaction, 2018, 85 (12), 67-89.
  • Determination of Hydrogen Oxidation Reaction Mechanism Based on Pt-Had Energetics in Alkaline Electrolyte, J. Hu, K. A. Kuttiyiel, K. Sasaki, C. Zhang, R. R. Adzic. the Journal of The Electrochemical Society, 165(15), (2018) J3355-J3362; DOI:10.1149/2.0471815jes.
  • Modification of BiVO4/WO3 composite photoelectrodes with Al2O3 via chemical vapor deposition for highly efficient oxidative H2O2 production from H2O, Y. Miyase, S. Takasugi, S. Iguchi, Y. Miseki,T. Gunji, K. Sasaki, E. Fujita and K. Sayama, Sustainable Energy & Fuels, 2, (2018) 1621-1629; DOI:10.1039/c8se00070k.
  • Temperature-Dependent Kinetics and Reaction Mechanism of Ammonia Oxidation on Pt, Ir, and PtIr Alloy Catalysts, Liang Song, Zhixiu Liang, Zhong Ma, Yu Zhang, Jingyi Chen, Radoslav R. Adzic, and Jia X. Wang, Journal of The Electrochemical Society, 165 (15) J3095-J3100 (2018), DOI: 10.1149/2.0181815jes.
  • Ultrathin PtxSn1–x Nanowires for Methanol and Ethanol Oxidation Reactions: Tuning Performance by Varying Chemical Composition, Luyao Li, Haiqing Liu, Chao Qin, Zhixiu Liang, Alexis Scida, Shiyu Yue, Xiao Tong, Radoslav R. Adzic, and Stanislaus S. Wong, ACS Appl. Nano Mater. 2018, 1, 1104–1115; DOI:10.1021/acsanm.7b00289.
  • Solvent effect in sonochemical synthesis of metal-alloy nanoparticles for use as electrocatalysts, Celest U. Okoli, Kurian A.Kuttiyiel, Jesse Cole, J. McCutchen, Hazem Tawfik, Radoslav R.Adzic, and Devinder Mahajan, Ultrasonics Sonochemistry Volume 41 (2018) 427-434; DOI:10.1016/j.ultsonch.2017.09.049.
  • Favorable Core/Shell Interface within Co2P/Pt Nanorods for Oxygen Reduction Electrocatalysis, Chang Liu, Zhong Ma, Meiyang Cui, Zhiyong Zhang, Xu Zhang, Dong Su, Christopher B. Murray, Jia X. Wang, and Sen Zhang, Nano Lett. 2018, 18, 12, 7870–7875; DOI:10.1021/acs.nanolett.8b03666.

2017

  • Janus structured Pt–FeNC nanoparticles as a catalyst for the oxygen reduction reaction, Kurian A. Kuttiyiel, Kotaro Sasaki, Gu-Gon Park, Miomir B. Vukmirovic, Lijun Wu, Yimei Zhu, Jingguang G. Chen and Radoslav R. Adzic, Chemical Communications, 2017, 53, 1660-1663.
  • Single Platinum Atoms Electrocatalysts: Oxygen Reduction and Hydrogen Oxidation Reactions, Miomir B. Vukmirovic; Krishani M. Teeluck; Ping Liu; Radoslav R. Adzic, Croatica Chemica Acta, 2017, 90, 225-230.
  • Surface Proton Transfer Promotes Four-Electron Oxygen Reduction on Gold Nanocrystal Surfaces in Alkaline Solution, Fang Lu, Yu Zhang, Shizhong Liu, Deyu Lu, Dong Su, Mingzhao Liu, Yugang Zhang, Ping Liu, Jia X. Wang, Radoslav R. Adzic, and Oleg Gang, Journal of the American Chemical Society, (2017) 139, 7310-7317.
  • Design of efficient Pt-based electrocatalysts through characterization by X-ray absorption spectroscopy, N. S. Marinkovic, K. Sasaki, R. R. Adzic, Frontiers in Energy, 2017, 11, 236-244.
  • Enhancing Electrocatalytic Performance of Bifunctional Cobalt-Manganese-Oxynitride Nanocatalysts on Graphene, Y. Li, K. A. Kuttiyiel, L. Wu, YM. Zhu, E. Fujita, R. R. Adzic, K. Sasaki, ChemSusChem, 2017, 10, 68-73.

2016

  • Controllable Deposition of Platinum Layers on Oxide Surfaces for the Synthesis of Fuel Cell Catalysts, M. B. Vukmirovic, K. A. Kuttiyiel, H. Meng, R. R. Adzic, ChemElectroChem, 2016, 3, 1635 - 1640.
  • Tuning electrocatalytic activity of Pt monolayer shell by bimetallic Ir-M (M=Fe, Co, Ni or Cu) cores for the oxygen reduction reaction, K. A Kuttiyiel, YM. Choi, K. Sasaki, D. Su, SM. Hwang, SD. Yim, T.H. Yang, G.G. Park, R. R Adzic, Nano Energy, 2016, 29, 261-267.
  • Oxygen Reduction Kinetics on Pt Monolayer Shell Highly Affected by the Structure of Bimetallic AuNi Cores, GY. Chen, K. A. Kuttiyiel, D. Su, M. Li, CH. Wang, D. Buceta, CY. Du, YZ. Gao, GP. Yin, K. Sasaki, M. B. Vukmirovic, R. R. Adzic, Chemistry of Materials, 2016, 28, 5274-5281.
  • Increasing Stability and Activity of Core-Shell Catalysts by Preferential Segregation of Oxide on Edges and Vertexes: Oxygen Reduction on Ti-Au@Pt/C, J. Hu, LJ. Wu, K. A. Kuttiyiel, K. R. Goodman, CX. Zhang, YM. Zhu, M. B. Vukmirovic, M. G. White, K. Sasaki, R. R. Adzic, Journal of the American Chemical Society, 2016, 138, 9294-9300.
  • Evaluation of Oxygen Reduction Activity by the Thin-Film Rotating Disk Electrode Methodology: the Effects of Potentiodynamic Parameters, GY. Chen, M. Li, K. A. Kuttiyiel, K. Sasaki, FP. Kong, CY. Du, YZ. Gao, GP. Yin, R. R. Adzic, Electrocatalysis, 2016, 7, 305-316. 6.         Synchrotron-Based In Situ Characterization of Carbon-Supported Platinum and Platinum Monolayer Electrocatalysts, K. Sasaki, N. Marinkovic, H. S. Isaacs, R. R. Adzic, ACS Catalysis, 6 (2016) 69-76.
  • Nanoparticle size evaluation of catalysts by EXAFS: Advantages and limitations, N. Marinkovic, K. Sasaki, R. R. Adzic, Zastita Materijala, 2016, 57, 101-109.
  • Pathways to Ultra-Low Platinum Group Metal Catalyst Loading in Proton Exchange Membrane Electrolyzers”, K. E. Ayers, J. N. Renner, N. Danilovic, J. X. Wang, Y. Zhang, R. Maric, H. Yu, Catalysis Today, 2016, 262, 121-132.
  • Role of Chemical Composition in the Enhanced Catalytic Activity of Pt-Based Alloyed Ultrathin Nanowires for the Hydrogen Oxidation Reaction under Alkaline Conditions, M. E. Scofield, YC. Zhou, SY. Yue, L. Wang, D. Su, X. Tong, M. B. Vukmirovic, R. R. Adzic, S. S. Wong, ACS Catalysis, 2016, 6, 3895-3908.
  • Transition Metal Nitride Coated with Atomic Layers of Pt as a Low-Cost, Highly Stable Electrocatalyst for the Oxygen Reduction Reaction, XL. Tian, JM. Luo, HX. Nan, HB. Zou, R. Chen, T. Shu, XH. Li, YW. Li, HY. Song, SJ. Liao, R. R. Adzic, Journal of the American Chemical Society, 2016, 138, 1575-1583.
  • Enhancement of oxygen reduction reaction activities by Pt nanoclusters decorated on ordered mesoporous porphyrinic carbons, SM. Hwang, Y. Choi, MG. Kim, YJ. Sohn, JY. Cheon, SH. Joo, SD. Yim, K. A. Kuttiyiel, K. Sasaki, R. R. Adzic, G. G. Park, Journal of Materials Chemistry A, 2016, 4, 5869-5876.
  • Correlating the chemical composition and size of various metal oxide substrates with the catalytic activity and stability of as-deposited Pt nanoparticles for the methanol oxidation reaction, M. E. Scofield, C. Koenigsmann, D. Bobb-Semple, J. Tao, X. Tong, L. Wang, C. S. Lewis, M. B. Vukmirovic, YM. Zhu, R. R. Adzic, S. S. Wong, Catalysis Science & Technology, 2016, 6, 2435-2450.  

2015

  • Elucidating Hydrogen Oxidation/Evolution Kinetics in Base and Acid by Enhanced Activities at the Optimized Pt Shell Thickness on the Ru Core, K. Elbert, J. Hu, Z. Ma, Y. Zhang, GY. Chen, W. An, P. Liu, H. S. Isaacs, R. R. Adzic, J. X. Wang, ACS Catalysis, 2015, 5, 6764-6772.
  • Pt Monolayer Shell on Nitrided Alloy Core-A Path to Highly Stable Oxygen Reduction Catalyst, J. Hu, K. A. Kuttiyiel, K. Sasaki, D. Su, TH. Yang, G. G. Park, CX. Zhang, GY. Chen, R. R. Adzic, Catalysts, 2015, 5, 1321-1332.
  • Enhancement of the oxygen reduction on nitride stabilized Pt-M (M=Fe, Co, and Ni) core-shell nanoparticle electrocatalysts, K. A. Kuttiyiel, Y. Choi, SM. Hwang, G. G. Park, TH. Yang, D. Su, K. Sasaki, P. Liu, R. R. Adzic, Nano Energy, 2015, 13, 442-449.
  • Multifunctional Ultrathin PdxCu1-x and Pt similar to PdxCu1-x One-Dimensional Nanowire Motifs for Various Small Molecule Oxidation Reactions, HQ. Liu, R. R. Adzic, S. S. Wong, ACS Applied Materials & Interfaces, 2015, 7, 26145-26157.
  • IIn Situ Probing of the Active Site Geometry of Ultrathin Nanowires for the Oxygen Reduction Reaction, HQ. Liu, W. An, YY. Li, A. I. Frenkel, K. Sasaki, C. Koenigsmann, D. Su, R. M. Anderson, R. M. Crooks, R. R. Adzic, P. Liu, S. S. Wong, Journal of the American Chemical Society, 2015, 137, 12597-12609.
  • Molybdenum Nitrides as Oxygen Reduction Reaction Catalysts: Structural and Electrochemical Studies, BF. Cao, J. C. Neuefeind, R. R. Adzic, P. G. Khalifah, Inorganic Chemistry, 2015, 54, 2128-2136.
  • DFT Study of Oxygen Reduction Reaction on Os/Pt Core-Shell Catalysts Validated by Electrochemical Experiment, HC. Tsai, YC. Hsieh, TH. Yu, YJ. Lee, YH. Wu, B. V. Merinov, PW. Wu, SY. Chen, R. R. Adzic, W. A. Goddard, ACS Catalysis, 2015, 5, 1568-1580.
  • Ruthenium nanoparticles mounted on multielement co-doped graphene: an ultra-high-efficiency cathode catalyst for Li-O-2 batteries, XY. Zeng, CH. You, LM. Leng, D. Dang, XC. Qiao, XH. Li, YW. Li, SJ. Liao, R. R. Adzic, Journal of Materials Chemistry A, 2015, 3, 11224-11231.
  • Controlling Bimetallic Nanostructures by the Microemulsion Method with Subnanometer Resolution Using a Prediction Model, D. Buceta, C. Tojo, M. B. Vukmirovic, F. L. Deepak, M. A. López-Quintela, Langmuir, 2015, 31, 7435-7439.
  • Ultralow charge-transfer resistance with ultralow Pt loading for hydrogen evolution and oxidation using Ru@Pt core-shell nanocatalysts, J. X. Wang, Y. Zhang, C. B. Capuano, and K. E. Ayers, Scientific Reports, 2015, 5, 12220-12227.
  • Cerium Oxide as a Promoter for the Electro-Oxidation Reaction of Ethanol: In-situ XAFS Characterization of the Pt Nanoparticles Supported on CeO2 Nanoparticles and Nanorods, J. Corchado-García, L. E.Betancourt, C. A. Vélez, S. D. Senanayake, D. Stacchiola, K. Sasaki, M. J.-F. Guinel, Y. Zhou, C. L. Cheung, C. R. Cabrera, Physical Chemistry Chemical Physics, 2015, 17, 32251-32256.
  • Biomass-derived High-performance Tungsten-based Electrocatalysts on Graphene for Hydrogen Evolution, F. Meng, E. Hu, L. Zhang, K. Sasaki, J. Muckerman, E. Fujita, Journal of Materials Chemistry A, 2015, 3, 18572-18577.  

2014

  • GGold-promoted structurally ordered intermetallic palladium cobalt nanoparticles for the oxygen reduction reaction, K. A. Kuttiyiel, K. Sasaki, D. Su, LJ. Wu, YM. Zhu, R. R. Adzic, NATURE Communications, 2014, 5, 5185.
  • Metalizing carbon nanotubes with Pd-Pt core-shell nanowires enhances electrocatalytic activity and stability in the oxygen reduction reaction, KP. Gong, J. Park, D. Su, R. R. Adzic, Journal of Solid State Electrochemistry, 2014, 18, 1171-1179.
  • High Performance Pt Monolayer Catalysts Produced via Core-Catalyzed Coating in Ethanol, Y. Zhang, YC. Hsieh, V. Volkov, D. Su, W. An, R. Si, YM. Zhu, P. Liu, J. X. Wang, R. R. Adzic, ACS Catalysis, 2014, 4, 738-742.
  • Core-shell, hollow-structured iridium-nickel nitride nanoparticles for the hydrogen evolution reaction, K. A. Kuttiyiel, K. Sasaki, WF. Chen, D. Su, R. R. Adzic, Journal of Materials Chemistry A, 2014, 2, 591-594.
  • Flame-Based Synthesis of Core-Shell Structures Using Pd-Ru and Pd Cores, J. Roller, H. Yu, M. B. Vukmirovic, S. Bliznakov, P. G. Kotula, C. B. Carter, R. R. Adzic, R. Maric, Electrochimica Acta, 2014, 138, 341-352.
  • Probing Ultrathin One-Dimensional Pd-Ni Nanostructures As Oxygen Reduction Reaction Catalysts, HQ. Liu, C. Koenigsmann, R. R. Adzic, S. S. Wong, ACS Catalysis, 2014, 4, 2544-2555.
  • Critical Size Range of Sub-Nanometer Au Clusters for the Catalytic Activity in the Hydrogen Oxidation Reaction, D. Buceta, M. C. Blanco, M. A. Lóopez-Quintela, and M. B. Vukmirovic, Journal of the Electrochemical Society, 2014, 161, D3113-D3115.
  • EDTA-Ce(III) Modified Pt Vulcan XC-72 Catalyst Synthesis for Methanol Oxidation in Acid Solution, R. Guzmán-Blás, D. Suazo-Dàvila, C.A. Velez, C.E. Daza, D. Stacchiola, K. Sasaki, S. Senanayake, A.C. Johnston-Peck, R. Molina, C. Cabrera, Electrocatalysis, 2014, 5, 50-61.
  • Tungsten Carbide-Nitride on Graphene Nanoplatelets as a Durable Hydrogen Evolution Electrocatalys, W.-F. Chen, J. Schneider; K. Sasaki, C.-H. Wang, J. Schneider, S. Iyer, S. Iyer, Y. Zhu, J.T. Muckerman, and E. Fujita, ChemSusChem, 2014, 7, 2414-2418.
  • Can CO-tolerant Anodes be Economically Viable for PEMFC Applications with Reformates?, J. X. Wang, P. He, Y. Zhang, and S. Ye, ECS Transactions, 2014, 64, 121-127.

2013

  • Ordered Bilayer Ruthenium-Platinum Core-Shell Nanoparticles as Carbon Monoxide-Tolerant Fuel Cell Catalysts, Y.-C. Hsieh, Y. Zhang, D. Su, V. Volkov, R. Si, L. Wu, Y. Zhu, W. An, P. Liu, P. He, S. Ye, R. R. Adzic, and J.X. Wang, Nature Communications, 2013, 4:2466, doi:10.1038/ncomms3466.
  • Pt Monolayer on Au-Stabilized PdNi Core-Shell Nanoparticles for Oxygen Reduction Reaction, K.A. Kuttiyiel, K. Sasaki, D. Su, M.B. Vukmirovic, N.S. Marinkovic, R.R. Adzic, Electrochimica Acta, 2013, 110, 267-272.
  • Oxygen Reduction Activity of IrCu Core Platinum Monolayer Shell Nano-electrocatalysts, Y.M. Choi, K.A. Kuttiyiel, J. P. Labis, K. Sasaki, G.-G. Park, T.-H. Yang, R.R. Adzic, Topics in Catalysis, 2013, 56(12), 1059-1064.
  • The Role of Rhodium and Tin Oxide in the Platinum-based Electrocatalysts for Ethanol Oxidation to CO2, M. Li, W.-P. Zhou, N.S. Marinkovic, K. Sasaki, R.R. Adzic, Electrochimica Acta, 104 (2013) 454-461.
  • Recent Advances in Platinum Monolayer Fuel Cell Electrocatalysts for the Oxygen Reduction Reaction, K. Sasaki, H. Naohara, Y-M. Choi, J. X. Wang, M.B. Vukmirovic, P. Liu, R.R. Adzic, Journal of Fuel Cell Technology, 12(3) (2013) 58-64.
  • Hollow Core Supported Pt Monolayer Catalysts for Oxygen Reduction, Y. Zhang, C. Ma, Y. M. Zhu, R. Si, Y. Cai, J. X. Wang and R. R. Adzic, Catalysis Today, 2013, 202, 50-54.
  • Tuning the Catalytic Activity of Ru@Pt Core-Shell Nanoparticles for the Oxygen Reduction Reaction by Varying the Shell Thickness, L. J. Yang, M. B. Vukmirovic, D. Su, K. Sasaki, J. A. Herron, M. Mavrikakis, S. J. Liao and R. R. Adzic, Journal of Physical Chemistry C, 2013, 117, 1748-1753.
  • Ternary Electrocatalysts for Oxidizing Ethanol to Carbon Dioxide: Making Ir Capable of Splitting C-C Bond, M. Li, D. A. Cullen, K. Sasaki, N. S. Marinkovic, K. More and R. R. Adzic, Journal of the American Chemical Society, 2013, 135, 132-141.
  • Design of Pt-Pd Binary Superlattices Exploiting Shape Effects and Synergistic Effects for Oxygen Reduction Reactions, Y. J. Kang, X. C. Ye, J. Chen, Y. Cai, R. E. Diaz, R. R. Adzic, E. A. Stach and C. B. Murray, Journal of the American Chemical Society, 2013, 135, 42-45.
  • Heterogeneous Catalysts Need Not Be so "Heterogeneous": Monodisperse Pt Nanocrystals by Combining Shape-Controlled Synthesis and Purification by Colloidal Recrystallization, Y. Kang, M. Li, Y. Cai, M. Cargnello, R. E. Diaz, T. R. Gordon, N. L. Wieder, R. R. Adzic, R. J. Gorte, E. A. Stach and C. B. Murray, Journal of the American Chemical Society, 2013, 135, 2741-2747.
  • Highly Active and Durable Nanostructured Molybdenum Carbide Electrocatalysts for Hydrogen Production, W. F. Chen, C. H. Wang, K. Sasaki, N. Marinkovic, W. Xu, J. T. Muckerman, Y. Zhu and R. R. Adzic, Energy & Environmental Science, 2013, 6, 943-951.
  • Pt monolayer shell on hollow Pd core electrocatalysts: scale up synthesis, structure, and activity for the oxygen reduction reaction, Miomir B. Vukmirovic, Yu Zhang, Jia X. Wang, David Buceta, Lijun Wu and Radoslav R. Adzic, J. Serb. Chem. Soc., 2013, 78 (12) 1983-1992.
  • Core-Shell Catalysts Consisting of Nanoporous Cores for Oxygen Reduction Reaction, M. H. Shao, B. Smith, S. Guerrero, L. Protsailo, D. Su, K. Kaneko, J.H. Odell, M. Humbert, K. Sasaki, J. Marzullo, R. Darling, Physical Chemistry Chemical Physics, 2013, 15, 15078-15090.
  • Biomass-Derived Electrocatalytic Composites for Hydrogen Evolution, W.-F. Chen, S. Iyer, S. Iyer, K. Sasaki, C.-H. Wang, Y. Zhu, J.T. Muckerman, and E. Fujita, Energy & Environmental Science, 2013, 6, 1818-1826.

2012

  • Electrooxidation of Methanol at SnOx-Pt Interface: A Tunable Activity of Tin Oxide Nanoparticles, W. P. Zhou, W. An, D. Su, R. Palomino, P. Liu, M. G. White and R. R. Adzic, Journal of Physical Chemistry Letters, 2012, 3, 3286-3290.
  • Platinum Monolayer Electrocatalysts for the Oxygen Reduction Reaction, M. B. Vukmirovic, Y. Cai, S. T. Bliznakov, K. Sasaki, J. X. Wang and R. R. Adzic, ECS Transactions – Seattle, WA, Batteries, Fuel Cells, and Energy Conversion Tutorials on Electrocatalysis in Low Temperature Fuel Cells, Editor(s): T. Zawodzinski Jr., S. Mukerjee, P. Strasser, ECS Transactions 45 (2) 15-23 (2012).
  • Highly Stable Pt Monolayer on PdAu Nanoparticle Electrocatalysts for the Oxygen Reduction Reaction, K. Sasaki, H. Naohara, Y. M. Choi, Y. Cai, W. F. Chen, P. Liu and R. R. Adzic, Nature Communications, 2012, 3. DOI:10.1038/ncomms2124.
  • Platinum Monolayer Electrocatalysts for Anodic Oxidation of Alcohols, M. Li, P. Liu and R. R. Adzic, Journal of Physical Chemistry Letters, 2012, 3, 3480-3485.
  • Nitride Stabilized PtNi Core-Shell Nanocatalyst for high Oxygen Reduction Activity, K. A. Kuttiyiel, K. Sasaki, Y. M. Choi, D. Su, P. Liu and R. R. Adzic, Nano Letters, 2012, 12, 6266-6271.
  • Bimetallic IrNi Core Platinum Monolayer Shell Electrocatalysts for the Oxygen Reduction Reaction, K. A. Kuttiyiel, K. Sasaki, Y. Choi, D. Su, P. Liu and R. R. Adzic, Energy & Environmental Science, 2012, 5, 5297-5304.
  • Highly Enhanced Electrocatalytic Oxygen Reduction Performance Observed in Bimetallic Palladium-Based Nanowires Prepared under Ambient, Surfactantless Conditions, C. Koenigsmann, E. Sutter, T. A. Chiesa, R. R. Adzic and S. S. Wong, Nano Letters, 2012, 12, 2013-2020.
  • Size- and Composition-Dependent Enhancement of Electrocatalytic Oxygen Reduction Performance in Ultrathin Palladium-Gold (Pd1-xAux) Nanowires, C. Koenigsmann, E. Sutter, R. R. Adzic and S. S. Wong, Journal of Physical Chemistry C, 2012, 116, 15297-15306.
  • Catalytic Activity of Platinum Monolayer on Iridium and Rhenium Alloy Nanoparticles for the Oxygen Reduction Reaction, H. I. Karan, K. Sasaki, K. Kuttiyiel, C. A. Farberow, M. Mavrikakis and R. R. Adzic, ACS Catalysis, 2012, 2, 817-824.
  • Highly Active Pt3Pb and Core-Shell Pt3Pb-Pt Electrocatalysts for Formic Acid Oxidation, Y. J. Kang, L. Qi, M. Li, R. E. Diaz, D. Su, R. R. Adzic, E. Stach, J. Li and C. B. Murray, ACS Nano, 2012, 6, 2818-2825.
  • Increasing Pt Oxygen Reduction Reaction Activity and Durability with a Carbon-doped TiO2 Nanocoating Catalyst Support, K. Huang, K. Sasaki, R. R. Adzic and Y. C. Xing, Journal of Materials Chemistry, 2012, 22, 16824-16832.
  • Oxygen Reduction Reaction on Platinum-Terminated "Onion-structured" Alloy Catalysts, J. A. Herron, J. Jiao, K. Hahn, G. W. Peng, R. R. Adzic and M. Mavrikakis, Electrocatalysis, 2012, 3, 192-202.
  • Tetrahedral Palladium Nanocrystals: A New Support for Platinum Monolayer Electrocatalysts with High Activity and Stability in the Oxygen Reduction Reaction, K. P. Gong, Y. Cho, M. B. Vukmirovic, P. Liu, C. Ma, D. Su and R. R. Adzic, Zeitschrift Fur Physikalische Chemie-International Journal of Research in Physical Chemistry & Chemical Physics, 2012, 226, 1025-1038.
  • Hydrogen-Evolution Catalysts Based on Non-Noble Metal Nickel-Molybdenum Nitride Nanosheets, W. F. Chen, K. Sasaki, C. Ma, A. I. Frenkel, N. Marinkovic, J. T. Muckerman, Y. M. Zhu and R. R. Adzic, Angewandte Chemie-International Edition, 2012, 51, 6131-6135.
  • Pt Monolayer on Electrodeposited Pd Nanostructures: Advanced Cathode Catalysts for PEM Fuel Cells, S. T. Bliznakov, M. B. Vukmirovic, L. Yang, E. A. Sutter and R. R. Adzic, Journal of the Electrochemical Society, 2012, 159, F501-F506.
  • Platinum Monolayer Electrocatalysts: Tunable Activity, Stability, and Self-Healing Properties, R. Adzic, Electrocatalysis, 2012, 3, 163-169.
  • In Situ Characterization of Ternary Pt-Rh-SnO2/C Catalysts for Ethanol Electrooxidation, M. Li, N. S. Marinkovic, K. Sasaki, Electrocatalysis, 3 (2012) 376–385.

2011

  • Morphology-dependent activity of Pt nanocatalysts for ethanol oxidation in acidic media: Nanowires versus nanoparticles, W. P. Zhou, M. Li, C. Koenigsmann, C. Ma, S. S. Wong and R. R. Adzic, Electrochimica Acta, 2011, 56, 9824-9830.
  • Enhancement in Ethanol Electrooxidation by SnOx Nanoislands Grown on Pt(111): Effect of Metal Oxide-Metal Interface Sites, W. P. Zhou, S. Axnanda, M. G. White, R. R. Adzic and J. Hrbek, Journal of Physical Chemistry C, 2011, 115, 16467-16473.
  • Kirkendall Effect and Lattice Contraction in Nanocatalysts: A New Strategy to Enhance Sustainable Activity, J. X. Wang, C. Ma, Y. M. Choi, D. Su, Y. M. Zhu, P. Liu, R. Si, M. B. Vukmirovic, Y. Zhang and R. R. Adzic, Journal of the American Chemical Society, 2011, 133, 13551-13557.
  • Platinum Monolayer on IrFe Core-Shell Nanoparticle Electrocatalysts for the Oxygen Reduction Reaction, K. Sasaki, K. A. Kuttiyiel, D. Su and R. R. Adzic, Electrocatalysis, 2011, 2, 134-140.
  • Carbon-Supported IrNi Core-Shell Nanoparticles: Synthesis, Characterization, and Catalytic Activity, K. Sasaki, K. A. Kuttiyiel, L. Barrio, D. Su, A. I. Frenkel, N. Marinkovic, D. Mahajan and R. R. Adzic, Journal of Physical Chemistry C, 2011, 115, 9894-9902.
  • Mixed-Metal Pt Mono layer Electrocatalysts with Improved CO Tolerance, A. U. Nilekar, K. Sasaki, C. A. Farberow, R. R. Adzic and M. Mavrikakis, Journal of the American Chemical Society, 2011, 133, 18574-18576.
  • Truncated Ditetragonal Gold Prisms as Nanofacet Activators of Catalytic Platinum, F. Lu, Y. Zhang, L. H. Zhang, Y. G. Zhang, J. X. Wang, R. R. Adzic, E. A. Stach and O. Gang, Journal of the American Chemical Society, 2011, 133, 18074-18077.
  • Platinum Supported on NbRuyOz as Electrocatalyst for Ethanol Oxidation in Acid and Alkaline Fuel Cells, D. A. Konopka, M. Li, K. Artyushkova, N. Marinkovic, K. Sasaki, R. Adzic, T. L. Ward and P. Atanassov, Journal of Physical Chemistry C, 2011, 115, 3043-3056.
  • Enhanced Electrocatalytic Performance of Processed, Ultrathin, Supported Pd-Pt Core-Shell Nanowire Catalysts for the Oxygen Reduction Reaction, C. Koenigsmann, A. C. Santulli, K. P. Gong, M. B. Vukmirovic, W. P. Zhou, E. Sutter, S. S. Wong and R. R. Adzic, Journal of the American Chemical Society, 2011, 133, 9783-9795.
  • Synthesis and Catalytic Activity of Pt Monolayer on Pd Tetrahedral Nanocrystals with CO-adsorption-induced Removal of Surfactants, K. P. Gong, M. B. Vukmirovic, C. Ma, Y. M. Zhu and R. R. Adzic, Journal of Electroanalytical Chemistry, 2011, 662, 213-218.
  • Low-Coordination Sites in Oxygen-Reduction Electrocatalysis: Their Roles and Methods for Removal, Y. Cai, C. Ma, Y. M. Zhu, J. X. Wang and R. R. Adzic, Langmuir, 2011, 27, 8540-8547.
  • Pt Monolayer on Electrodeposited Pd Nanostructures-Advanced Cathode Catalysts for PEM Fuel Cells, S. T. Bliznakov, M. B. Vukmirovic, L. Yang, E. A. Sutter and R. R. Adzic, ECS Transactions - Boston, MA, Polymer Electrolyte Fuel Cells 11, Editor(s): H. Gasteiger, F. Büchi, V. Ramani, A. Weber, P. Shirvanian, T. Fuller, S. Narayanan, A. Davenport, H. Nakagawa, M. Edmundson, D. Jones, H. Uchida, C. Lamy, P. Strasser, S. Mukerjee, R. Mantz, K. Swider-Lyons, T. Schmidt, ECS Trans. 41(1) (2011) 1055-1066.
  • Eelctrodeposition of Pd Nanowires ad Nanorods on Carbon Nanoparticles, S. Bliznakov, M. Vukmirovic, E. Sutter and R. Adzic, Macedonian Journal of Chemistry and Chemical Engineering, 2011, 30, 19-27.
  • Controllable Deposition of Alloy Clusters or Nanoparticles Catalysts on Carbon Surfaces, Y. Ando, K. Sasaki, D. Su and R. Adzic, Bulletin of the Chemical Society of Japan, 2011, 84, 862-866.
  • Electrodeposition of Metals in Catalysts Syntheses: A Case of Platinum Monolayer Electrocatalysts, M. B. Vukmirovic, S.T. Bliznakov, K. Sasaki, J. X. Wang and R.R. Adzic, Interface, 20(2) (2011) 33-39.

2010

  • Enhancing Oxygen Reduction Reaction Activity via Pd-Au Alloy Sublayer Mediation of Pt Monolayer Electrocatalysts, Y. C. Xing, Y. Cai, M. B. Vukmirovic, W. P. Zhou, H. Karan, J. X. Wang and R. R. Adzic, Journal of Physical Chemistry Letters, 2010, 1, 3238-3242.
  • Core-Protected Platinum Monolayer Shell High-Stability Electrocatalysts for Fuel-Cell Cathodes, K. Sasaki, H. Naohara, Y. Cai, Y. M. Choi, P. Liu, M. B. Vukmirovic, J. X. Wang and R. R. Adzic, Angewandte Chemie-International Edition, 2010, 49, 8602-8607.
  • Role of Surface Steps of Pt Nanoparticles on the Electrochemical Activity for Oxygen Reduction, S. W. Lee, S. Chen, J. Suntivich, K. Sasaki, R. R. Adzic and Y. Shao-Horn, Journal of Physical Chemistry Letters, 2010, 1, 1316-1320.
  • Platinum-Monolayer Shell on AuNi0.5Fe Nanoparticle Core Electrocatalyst with High Activity and Stability for the Oxygen Reduction Reaction, K. P. Gong, D. Su and R. R. Adzic, Journal of the American Chemical Society, 2010, 132, 14364-14366.
  • Platinum-monolayer Electrocatalysts Palladium Interlayer on IrCo Alloy Core Improves Activity in Oxygen-reduction Reaction, K. P. Gong, W. F. Chen, K. Sasaki, D. Su, M. B. Vukmirovic, W. P. Zhou, E. L. Izzo, C. Perez-Acosta, P. Hirunsit, P. B. Balbuena and R. R. Adzic, Journal of Electroanalytical Chemistry, 2010, 649, 232-237.
  • Intermetallic as Support for Pt Monolayer O2 Reduction Electrocatalysts: Potential for Significantly Improving Properties, T. Ghosh, M. B. Vukmirovic, F. J. DiSalvo and R. R. Adzic, Journal of the American Chemical Society, 2010, 132, 906-907.
  • Platinum Monolayer Electrocatalysts: Palladium Interlayer on IrCo Alloy Core Improves Activity in Oxygen Reduction Reaction, K. Gong, W.-F. Chen, K. Sasaki, D. Su, M. B. Vukmirovic, W.-P. Zhou, E. L. Izzo, C. Perez-Acosta, P. Hirunsit, P. B. Balbuena and R. R. Adzic, Journal of Electroanalytical Chemistry, 2010, 649, 232-237.
  • Ethanol Oxidation on the Ternary Pt-Rh-SnO2/C Electrocatalysts with Varied Pt:Rh:Sn Ratios, M. Li, A. Kowal, K. Sasaki, N. Marinkovic, D. Su, E. Korach, P. Liu and R. R. Adzic, Electrochimica Acta, 2010, 55, 4331-4338.
  • Gram-Scale-Synthesized Pd2Co-Supported Pt Monolayer Electrocatalysts for Oxygen Reduction Reaction, W.-P. Zhou, K. Sasaki, D. Su, Y. Zhu, J. X. Wang and R. R. Adzic, Journal of Physical Chemistry C, 2010, 114, 8950-8957.
  • Recent Advances in Platinum Monolayer Electrocatalysts for Oxygen Reduction Reaction: Scale-up Synthesis, Structure and Activity of Pt Shells on Pd Cores, K. Sasaki, J.X. Wang, H. Naohara, N. Marinkovic, K. More, H. Inada and R.R. Adzic, Electrochimica Acta, 2010, 55, 2645-2652.
  • Size-Dependent Enhancement of Electrocatalytic Performance in Relatively Defect-Free, Processed Ultrathin Platinum Nanowires, C. Koenigsmann, W.-P. Zhou, R. R. Adzic, E. Sutter and S. S. Wong, Nano Letters, 2010, 10, 2806-2811.
  • Platinum Monolayer Electrocatalysts for O2 Reduction: Pt Monolayer on Carbon-Supported PdIr Nanoparticles, S. L. Knupp, M. B. Vukmirovic, P. Haldar, J. A. Herron, M. Mavrikakis, and R. R. Adzic, Electrocatalysis, 2010, 1, 213-223.

2009

  • Ternary Pt/Rh/SnO2 Electrocatalysts for Oxidizing Ethanol to CO2, A. Kowal, M. Li, M. Shao, K. Sasaki, M. B. Vukmirovic, J. Zhang, N. S. Marinkovic, P. Liu, A. I. Frenkel and R. R. Adzic, Nature Materials, 2009, 8, 325-330.
  • Improving Electrocatalysts for O2 Reduction by Fine-Tuning the Pt−Support Interaction: Pt Monolayer on the Surfaces of a Pd3Fe(111) Single-Crystal Alloy, W.-P. Zhou, X. Yang, M. B. Vukmirovic, B. E. Koel, J. Jiao, G. Peng, M. Mavrikakis and R. R. Adzic, Journal of the American Chemical Society, 2009, 131, 12755-12762.
  • Electrocatalysts for Methanol Oxidation with Ultra Low Content of Pt and Ru, Y. Ando, K. Sasaki and R. R. Adzic, Electrochemistry Communications, 2009, 11, 1135-1138.
  • Molecular and Atomic Hydrogen Interactions with Au-Ir Near-Surface Alloys, P. A. Ferrin, S. Kandoi, J. Zhang, R. R, Adzic and M. Mavrikakis, Journal of Physical Chemistry C, 2009, 113, 1411-1417.
  • Enhanced Electrocatalytic Performance of One-Dimensional Metal Nanowires and Arrays Generated via an Ambient, Surfactantless Synthesis, H. Zhou, W.-P. Zhou, R. R. Adzic and S. S. Wong, Journal of Physical Chemistry C, 2009, 113, 5460-5466.
  • High CO Tolerance of Pt/Ru Nanocatalyst: Insight from First Principles Calculations, S. Stolbov, M. A. Ortigoza, R. R. Adzic and T. S. Rahman, Journal of Chemical Physics, 2009, 130, 124714.
  • Oxygen Reduction on Well-Defined Core-Shell Nanoparticles: Size, Facet, and Pt Shell Thickness Effects, J. X. Wang, H. Inada, L. Wu, Y. Zhu, Y. Choi, P. Liu, W.-P. Zhou, and R. R. Adzic, Journal of the American Chemical Society, 2009, 131, 17298-17302.
  • XAS of Platinum Monolayer Fuel Cell Electrocatalysts - Unambiguous, Direct Correlation of Spectroscopy Data with Catalytic Properties, K. Sasaki and R. R. Adzic, Synchrotron Radiation News, 2009, 22, 17-21.

Book Chapters

  • Some Recent Studies in Ruthenium Electrochemistry and Electrocatalysis, N.S. Marinkovic, M.B. Vukmirovic and R.R. Adzic, Modern Aspects of Electrochemistry, Constantinos G. Vayenas; Ralph E. White; Maria E. Gamboa-Aldeco, (Eds.), Springer, New York, 2008, Vol. 42, pp. 1-52.
  • Dissolution and Stabilization of Platinum in Oxygen Cathodes, K. Sasaki, M. Shao, R.R. Adzic, in Polymer Electrolyte Fuel Cell Durability, T.J. Schmidt et al. (eds.), Springer (New York), 2009, pp. 2-27.
  • Platinum Monolayer Electrocatalysts for Fuel Cells, R. R. Adzic and F. Lima, in Handbook of Fuel Cells, Vol. 5 - Advances in Electrocatalysis, Materials, Diagnostics and Durability, W. Vielstich, H. A. Gasteiger, H. Yokokawa (Eds), J. Wiley & Sons, Inc. New York, 2009, p 5-18.
  • Platinum Monolayer Electrocatalysts: Improving Structure and Activity, K. Sasaki, M. B. Vukmirovic, J. X. Wang and R. R. Adzic, Fuel Cell Science: Theory, Fundamentals, and Bio-Catalysis, J. Norskov, A. Wieckowski (Eds), John Wiley & Sons, Inc. New York, 2010, p. 215-236.
  • Electrocatalysis for Anodic Reactions, K. Sasaki, M. Li, in Encyclopedia of Applied Electrochemistry, K. Ota, G. Kreysa, R.F. Savinell (eds.), Springer, (New York), 2014, pp. 402-411.
  • Electrocatalysts for the Oxygen Reaction, Core-Shell Electrocatalysts, M. B. Vukmirovic, in Encyclopedia of Applied Electrochemistry, G. Kreysa, K. Ota, and R. F. Savinell (Eds.), Springer, New York, 2014, pp. 437-443.
  • Hydrogen Oxidation and Evolution on Platinum in Acids, J. X. Wang, in Encyclopedia of Applied Electrochemistry, G. Kreysa, K. Ota, and R. F. Savinell (Eds.), Springer, New York, 2014, pp. 1045-1049.
  • Platinum Monolayer Electrocatalysts, R. R. Adzic and Y. Cai, in Encyclopedia of Applied Electrochemistry, G. Kreysa, K. Ota, and R. F. Savinell (Eds.), Springer, New York, 2014, pp. 1594-1606.
  • Electrochemical Atomic-Level Controlled Syntheses of Electrocatalysts for the Oxygen Reduction Reaction, S. Bliznakov, M. Vukmirovic, R. Adzic, in Atomically-Precise Methods for Synthesis of Solid Catalysts, S. Hermans and T. V. de Bocarme (Eds.), RSC Catalysis Series No. 22, The Royal Society of Chemistry, 2015, pp. 144-166.
  • X-ray Absorption Spectroscopic Characterization of Nanomaterial Catalysts in Electrochemistry and Fuel Cells, K. Sasaki, N. Marinkovic, in the 5th volume of SPRINGER book series on "X-ray and Neutron Techniques for Nanomaterials Characterization", Challa S.S.R. Kumer (Ed.), Springer-Verlag, Berlin Heidelberg, 2016, pp. 315-366.
  • Recent Advances of Platinum Monolayer Electrocatalysts for the Oxygen Reduction Reaction K. Sasaki, K. A. Kuttiyiel, J. X. Wang, M. B. Vukmirovic, R. R. Adzic, in Electrocatalysts for Low Temperature Fuel Cells: Fundamentals and Recent Advancements, T. Maiyalagan, S. S. Viswanathan (eds) Wiley-VCH Verlag Gmbh & Co. KGaA, Germany, 2017, pp. 557-584.
  • Platinum Monolayer Electrocatalysts, Radoslav Adzic and Nebojsa Marinkovic, Springer Nature Switzerland AG 2020, DOI:10.1007/978-3-030-49566-4.
  • In Situ X-ray Absorption Spectroscopic Studies of Nanostructured Electrocatalysts for Fuel Cells, K. Sasaki, N. Marinkovic, R. R. Adzic in X-Ray Techniques of Materials Nanoprobing, Di-Jing Huang, Li-Chyong Chen (eds.) World Scientific Publishing, in print.
  • Electrochemical cells for in situ XAS studies, K. Sasaki, in International Tables for Crystallography: Volume I, X-ray Absorption Spectroscopy and Related Techniques, C. T. Chantler, B. Bunker, F. Boscherini (eds), the International Union of Crystallography (Chester, UK), in print.  

About the SEE Group

We explore basic problems of electrocatalysis of fuel cell reactions, while focusing on platinum monolayer (PtML) electrocatalysts for the O2 reduction reaction (ORR), the electrocatalysts for ethanol and methanol oxidation to CO2, H2 evolution (HER) and H2oxidation (HOR) reactions. The goals include developing the fundamental understanding of these systems to allow syntheses of improved electrocatalysts with ultimately low Pt content.