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| - | <columns center> | ||
| - | **Principal Investigator at JCAP**\\ | ||
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| - | * {{wiki:publication:acsenergylett.8b00164.pdf|High-Rate Electrochemical Reduction of Carbon Monoxide to Ethylene Using CuNanoparticle-Based | ||
| - | Gas Diffusion Electrode }}, L. Han, W. Zhou, C. Xiang*, //ACS Energy Letters//, **2018**.\\ | ||
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| - | * {{wiki:publication:acs.jpcc.7b11316.pdf|Effects of Electrolyte Buffer Capacity on Surface Reactant Species and the Reaction Rate of CO2 in Electrochemical CO2 Reduction}}, H. Hashiba, L. Weng, Y. Chen, H. Sato, Yotsuhashi, C. Xiang, A. Weber, //J. Phys. Chem. C//, **2018**.\\ | ||
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| - | * {{wiki:publication:singh_recirculation_ms.pdf|Evaluation of Flow Schemes for Near-Neutral Electrolytes in Solar-Fuels Generator}}, M. Singh, N. S. Lewis, C. Xiang*, //Sustainable Energy&Fuels//, **2017**.\\ | ||
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| - | * {{wiki:publication:jiang_et_al-4657-chemsuschem.pdf|Nanoelectrical and Nanoelectrochemical Imaging of Pt/p‐Si and Pt/p+‐Si Electrodes}}, J. Jiang, Z. Huang, C. Xiang, R. Poddar, H. Lewerenz, K. Papadantonakis, N. Lewis, B. Brunschwig //ChemSusChem//, **2017**.\\ | ||
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| - | * {{wiki:publication:0317.pdf|Solar-Driven Reduction of 1 atm CO2 to Formate at 10% Energy-Conversion Efficiency by Use of a TiO2-Protected III-V Tandem Photoanode in Conjunction with Bipolar Membrane and a Pd/C Cathode Electrocatalyst}}, X. Zhou, R. Liu, K. Sun, Y. Chen, E. Verlage, S. Francis, N. Lewis, __C. Xiang__*, //accepted in ACS Energy Letters//, **2017**.\\ | ||
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| - | * {{|A Solar-Driven Water-Splitting Cell Based on Triple Junction Photocathodes Patterned with Metallic Electrocatalysts}}, R. Liu, J. Haber, __C. Xiang__*, //submitted//, **2017**.\\ | ||
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| - | * {{wiki:publication:co2rr.pdf|Modeling and Simulation of the Spatial and Light-Intensity Dependence of Product Distributions in an Integrated Photoelectrochemical CO2 Reduction System}}, Y. Chen, N. S. Lewis, __C. Xiang__*, //ACS Energy Letters//, **2016**.\\ | ||
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| - | * {{wiki:publication:xiang_et_al-2016-angewandte_chemie_international_edition.pdf|Design and Implementation of Solar-Driven Water-Splitting Devices}}, __C. Xiang__*, A. Weber*, S. Ardo, A. Berger, Y. Chen, R. Coridan, K. Fountaine, S. Haussener, S. Hu, N. Lewis, R. Liu, M. Modestino, M. Shaner, M. Singh, J. Stevens, K. Sun, K. Walczak, invited review article, //Angewantde Chemie//, **2016**. | ||
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| - | * {{wiki:publication:sun_et_al-2016-advanced_energy_materials.pdf|A Stabilized, Intrinsically Safe, 10% Efficient, Solar-Driven Water-Splitting Cell Incorporating Earth-Abundant Electrocatalysts with Steady-State pH Gradients and Product Separation Enabled by a Bipolar Membrane}}, K. Sun, R. Liu, Y. Chen, E. Verlage, N. S. Lewis*, __C. Xiang__*, Journal Cover of //Advanced Energy Materials//, **2016** research was highlighted in {{wiki:publication:nenergy201685.pdf|Nature Energy}}\\ | ||
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| - | * {{wiki:publication:12334.pdf|Principles and Implementations of Electrolysis Systems for Water Splitting}}, __C. Xiang__*, K. Papadantonakis, N. S. Lewis*, //Materials Horizons//, **2016**\\ | ||
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| - | * {{wiki:publication:operational_constraints_and_strategies_for_systems_to_effect_the_sustainable_solar-driven_reduction_of_atmospheric_co2.pdf|Operational constraints and strategies for systems to effect the sustainable, solar-driven reduction of atmospheric CO2}}, Y. Chen,N. S. Lewis*, __C. Xiang__*, //Energy & Environmental Science//, **2016**\\ | ||
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| - | * {{wiki:publication:c5ee01786f.pdf|A monolithically integrated, intrinsically safe, 10% efficient, solar-driven water-splitting system | ||
| - | based on active, stable earth-abundant electrocatalysts in conjunction with tandem III–V light absorbers protected by amorphous | ||
| - | TiO2 films}}, E. Verlage, S. Hu, R. Liu, R. J. R. Jones, K. Sun, __C. Xiang__*,N. S. Lewis*, H. A. Atwater*, Journal Cover of //Energy & Environmental Science//, **2015** \\ | ||
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| - | * {{wiki:publication:c4ee02314e.pdf|A sensitivity analysis to assess the relative importance of improvements in electrocatalysts, light absorbers, and system geometry on the efficiency of solar-fuels generators}}, Y. Chen, S. Hu, __C. Xiang__*,N. S. Lewis*, //Energy & Environmental Science//, **2015**\\ | ||
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| - | * {{wiki:publication:c5ee00311c.pdf|A Quantitative Analysis of the Efficiency of Solar-Driven Water-Splitting Device Designs Based on Tandem Photoabsorbers Patterned with Islands of Metallic Electrocatalysts }}, Y. Chen, K. Sun, H. Audesirk, __C. Xiang__*,N. S. Lewis*, //Energy & Environmental Science//, **2015**\\ | ||
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| - | * {{wiki:publication:c5ee01721a.pdf|An electrochemical engineering assessment of the operational conditions and constraints for solar-driven water-splitting systems at near-neutral pH}}, M. R. Singh, K. Papadantonakis, __C. Xiang__*,N. S. Lewis*, //Energy & Environmental Science//, **2015**\\ | ||
| - | |||
| - | * {{wiki:publication:walczak_et_al-2015-chemsuschem.pdf|Modeling, Simulation, and Fabrication of a Fully Integrated, Acid-stable, Scalable Solar-Driven Water- | ||
| - | Splitting System}}, K. Walczak, Y. Chen, C. Karp, M. Shane, J. Spurgeon, I. Sharp, X. Amashukeli, W. West, J. Jin, N. S. Lewis, __C. Xiang*__ , //ChemSusChem//, **2015**.\\ | ||
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| - | * {{wiki:publication:c4ee01824a.pdf|An Experimental and Modeling/Simulation- Based Evaluation of the Efficiency and Operational Performance Characteristics of an Integrated, Membrane-Free, Neutral pH Solar-Driven Water-Splitting System}}, J. Jin, K. Walczak, M. R. Singh, C. Karp, N. S. Lewis, __C. Xiang__*, //Energy & Environmental Science//, **2014**\\ | ||
| - | |||
| - | **Research Scientist at JCAP**</columns> | ||
| - | * {{wiki:publication:j._electrochem._soc.-2014-chen-f1101-10.pdf|Modeling the Performance of an Integrated Photoelectrolysis | ||
| - | System with 10× Solar Concentrators}}, Y. Chen, __C. Xiang__, N. S. Lewis*,//Journal of the Electrochemical Society//, **2014**\\ | ||
| - | |||
| - | * {{wiki:publication:a_high_throughput_bubble_screening_method_for_combinatorial_discovery_of_electrocatalysts_for_water_splitting_.pdf | ||
| - | |A High Throughput Bubble Screening Method for Combinatorial Discovery of Electrocatalysts for Water Splitting}}, __C. Xiang__*, S. Suram, J. Haber, D. Guevarra, J. Jin, J. Gregoire,//ACS Combinatorial Science//, **2014**\\ | ||
| - | |||
| - | * {{wiki:publication:discovering_ce-rich_oxygen_evolution_catalysts_from_high_throughput_screening_to_water_electrolysis.pdf | ||
| - | |Discovering Ce-rich oxygen evolution catalysts, from high throughput screening to water electrolysis}}, J. Haber, Y. Cai, S. Jung, __C. Xiang__, S. Mitrovic, J. Jin, A. Bell, J. Gregoire*,//Energy & Environmental Science//, **2014**\\ | ||
| - | |||
| - | * {{wiki:publication:throughput_mapping_of_electrochemical_properties_of_ni-fe-co-ce_ox_oxygen_evolution_catalysts.pdf|Throughput Mapping of Electrochemical Properties of (Ni-Fe-Co-Ce)Ox Oxygen Evolution Catalysts}}, J. Haber, __C. Xiang__, D. Guevarra, S. Jung, J. Jin, J. Gregoire*, //ChemElectroChem//, **2014** | ||
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| - | * {{wiki:publication:mapping_quantum_yield_for_fe-zn-sn-ti_ox_photoabsorbers_using_a_high_throughput_photoelectrochemical_screening_system_.pdf|Mapping Quantum Yield for (Fe-Zn-Sn-Ti)Ox Photoabsorbers Using a High Throughput Photoelectrochemical Screening System }}, __C. Xiang__*, J. Haber, M. Marcin, S. Mitrovic, J. Jin, J. Gregoire, //ACS Combinatorial Science//, **2013**\\ | ||
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| - | * {{wiki:publication:vapor_fed_paper.pdf|Modeling an Integrated Photoelectrolysis System Sustained by Water Vapor }}, __C. Xiang__, Y. Chen, N. S. Lewis*, //Energy & Environmental Science//, **2013**, | ||
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| - | * {{wiki:publication:c3ee41302k_2_.pdf|Simulations of the irradiation and temperature dependence of the efficiency of tandem photoelectrochemical water-splitting systems}}, S. Haussener, S. Hu, __C. Xiang__, A. Z. Weber, N. S. Lewis*, //Energy & Environmental Science//, **2013**, | ||
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| - | * {{wiki:publication:c3ee40453f.pdf|An analysis of the optimal band gaps of light absorbers in integrated tandem photoelectrochemical water-splitting systems}}, S. Hu, __C. Xiang__, S. Haussener, A. Berger, N. S. Lewis*, //Energy & Environmental Science//, **2013**, | ||
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| - | * {{wiki:publication:combined_fom_paper.pdf|Combined Catalysis and Optical Screening for High Throughput Discovery of Solar Fuels Catalysts}}, J. Gregoire*, __C. Xiang__, S. Mitrovic, X. Liu, M. Marcin, E. Cornell, J. Fan, J. Jin, //Journal of The Electrochemical Society//, **2013**, //160//, F337-F342 | ||
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| - | * {{wiki:publication:111.pdf|Scanning Droplet Cell for High Throughput Electrochemical and Photoelectrochemical Measurements, Review of Scientific Instruments}}, J. Gregoire, __C. Xiang__, X. Liu, M. Marcin, J. Jin*, //Review of Scientific Instruments//, **2013**, //84//, 024102. | ||
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| - | <columns center> | ||
| - | **Postdoctoral Scholar at Lewis Group**</columns> | ||
| - | |||
| - | * {{wiki:publication:modeling_simulation_and_design_criteria_for_pec.pdf|Modeling, simulation, and design criteria for photoelectrochemical water-splitting systems}}, S. Haussener, __C. Xiang__, J. Spurgeon, S. Ardon, A. Weber, and N. S. Lewis*, //Energy & Environmental Science//, **2012**, //5//, 9922-9935 | ||
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| - | * {{wiki:publication:pnas-2012-xiang-1118338109_1_.pdf|Evaluation and Optimization of Mass Transport of Redox Species in Silicon Microwire-Array Photoelectrodes}}, __C. Xiang__, A. Meng, N. S. Lewis*, //Proceedings of the National Academy of Sciences//, **2012**, //109//, 15622–15627 | ||
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| - | * {{wiki:publication:copper_oxide_liquid_junction_for_solar_energy_conversion.pdf |820 mV open-circuit voltages from Cu2O/CH3CN junctions}}, __C. Xiang__, G. M. Kimball, R. L. Grimm, B. S. Brunschwig, H. A. Atwater, and N. S. Lewis*, //Energy and Environmental Science//, **2011**, //4//, 1311-1318 | ||
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| - | <columns center> | ||
| - | **Ph. D work at Penner Group**</columns> | ||
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| - | * {{wiki:publication:reconnectable_sub_5_nm_nanogaps_in_ultralong_gold_nanowires.pdf |Reconnectable Sub-5 nm Nanogaps in Ultra-Long Gold Nanowires}}, __C. Xiang__, J. Y. Kim, R. M. Penner*, //Nano Lett//, ** 2009 **, //9//, 2133 | ||
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| - | * {{wiki:publication:chem_comm_feature_review_-_lithographically_patterned_nanowire_electrodeposotion.pdf |Cheating the Diffraction Limit: Electrodeposited Nanowires Patterned by Photolithography}}, __C. Xiang__, Y. Yang, R. M. Penner*, //Chem Comm//, **2009**, //8//, 841 | ||
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| - | * {{wiki:publication:wafer-scale_patterning_of_lead_telluride_nanowire.pdf|Wafer-Scale Patterning of Lead Telluride Nanowires: Structure, Electrical Properties, and Reactivity in Air}}, Y. Yang, D. K. Taggart, M. A. Brown,__ C. Xiang__, S. C. Kung, F. Yang, J. C. Hemminger and R. M. Penner*, //ACS Nano//, **2009**, //3//, 4144 | ||
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| - | * {{wiki:publication:characterization_of_electrodeposited_gold_and_palladium_nanowire_gratings_with_optical_diffraction_measurements.pdf|Characterization of Electrodeposited Gold and Palladium Nanowire Gratings with Optical Diffraction Measurements}}, A. R. Halpern, N. Nishi, J. Wen, F. Yang, __C. Xiang__, R. M. Penner, and R. M. Corn*, //J. Phys. Chem. C//, **2009**, //81//, 5585 | ||
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| - | * {{wiki:publication:coupled_electrooxidation_and_electrical_conduction_in_a_single_gold_nanowire.pdf |Coupled Electrooxidation and Electrical Conduction in a Single Gold Nanowire}}, __C. Xiang__, A. G. Güell, M. A. Brown, J. Y. Kim, J. C. Hemminger, R. M. Penner*, //Nano Lett//, **2008**, //8//, 3017 | ||
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| - | * {{wiki:publication:acs_nano_-_full_lpne_mehod.pdf|Lithographically Patterned Nanowire Electrodeposition: A Method for Patterning Electrically Continuous Metal Nanowires on Dielectrics}}, __C. Xiang__, S. C. Kung, D. K. Taggart, F. Yang, M. A. Thompson, A. G. Güell, Y. Yang, R. M. Penner*, //Cover of ACS Nano//, **2008**, //2//, 1939 | ||
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| - | * {{wiki:publication:lpne3.pdf|Lithographically Patterned Nanowire Electrodeposition}}, __C. Xiang__, M. A. Thompson, F. Yang, E. J. Menke, L. C. Yang, R. M. Penner*, //Cover of Physica Status Solidi (c)//, **2008**, //5//, 3503 | ||
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| - | * {{wiki:publication:synthesis_of_pbte_nanowire_arrays_using_lithographically_patterned_nanowire_electrodeposition.pdf |Synthesis of PbTe Nanowire Arrays using Lithographically Patterned Nanowire Electrodeposition}}, Y. Yang, S. C. Kung, D. K. Taggart, __C. Xiang__, F. Yang, M. A. Brown, A. G. Güell, T. J. Kruse, J. C. Hemminger, R. M. Penner*, //Nano Lett//, **2008**, //8//, 2477 | ||
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| - | * {{wiki:publication:tunable_two_photon-excited_luminescence_in_single_gold_nanowires_fabricated_by_lithographically_patterned_nanowire_.pdf | ||
| - | |Tunable two photon-excited luminescence in single gold nanowires fabricated by lithographically patterned nanowire electrodeposition}}, H. Kim, __C. Xiang__, A. G. Güell, R. M. Penner and E. O. Potma*, //J. Phys. Chem. C//, **2008**, //112//, 12721 | ||
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| - | * {{wiki:publication:spatial_control_of_coherent_anti-stokes_emission_with_height-modulated_gold_zig-zag_nanowires.pdf | ||
| - | |Spatial Control of Coherent Anti-Stokes Emission with Height-Modulated Gold Zig-zag Nanowires}}, H. Kim, D. K. Taggart,__ C. Xiang__, R. M. Penner and E. O. Potma*, //Nano Lett//, **2008**, //8//, 2327 | ||
| - | |||
| - | * {{wiki:publication:nature_materials_-_lpne_method.pdf | ||
| - | |Lithographically Patterned Nanowire Electrodeposition, Nature Materials}}, E. J. Menke, M. A.Thompson+, __C. Xiang__+, L. C. Yang, R. M. Penner*, //Nature Materials//, **2006**, //5//, 914 | ||