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Measurement of the Free Energy Dependence of Interfacial Charge-Transfer Rate Constants Using ZnO/H2O Semiconductor/Liquid Contacts.

Hamann, T.W.; Gstrein, F.; Brunschwig, B. S.; Lewis, N. S.; “Measurement of the Free Energy Dependence of Interfacial Charge-Transfer Rate Constants Using ZnO/H2O Semiconductor/Liquid Contacts.” Journal of the American Chemical Society 2005, 127, 7815–7824

Measurement of the Dependence of Interfacial Charge-Transfer Rate Constants on the Reorganization Energy of Redox Species at n-ZnO/H2O Interfaces.

Hamann, T.W.; Gstrein, F.; Brunschwig, B. S.; Lewis, N. S.; “Measurement of the Dependence of Interfacial Charge-Transfer Rate Constants on the Reorganization Energy of Redox Species at n-ZnO/H2O Interfaces.” Journal of the American Chemical Society 2005, 127, 13949–13954

Time-Resolved EPR Study of the Photophysics and Photochemistry of 1-(3-(Methoxycarbonyl)Propyl)-1-Phenyl6.6C61

Hamann, T.W.; Srivatsan, N.; Van Willigen, H.; “Time-Resolved EPR Study of the Photophysics and Photochemistry of 1-(3-(Methoxycarbonyl)Propyl)-1-Phenyl6.6C61” Journal of Physical Chemistry A 2005, 109, 11665–11672

Measurement of the Driving Force Dependence of Interfacial Charge-Transfer Rate Constants in Response to pH Changes at n-ZnO/H2O Interface.

Hamann, T.W.; Gstrein, F.; Brunschwig, B. S.; Lewis, N. S.; “Measurement of the Driving Force Dependence of Interfacial Charge-Transfer Rate Constants in Response to pH Changes at n-ZnO/H2O Interface.” Chemical Physics 2006, 326, 13–26

A Comparison Between Interfacial Electron-Transfer Rate Constants at Metallic and Graphite Electrodes.

Royea, W.J.; Hamann, T.W.; Brunschwig, B. S.; Lewis, N. S.; “A Comparison Between Interfacial Electron-Transfer Rate Constants at Metallic and Graphite Electrodes.” Journal of Physical Chemistry B 2006, 110, 19433–19442

Control of the Stability, Electron-Transfer Kinetics, and pH-Dependent Energetics of Si/H2O Interfaces Through Methyl Termination of Si(111) Surfaces

Hamann, T.W.; Lewis, N. S.; “Control of the Stability, Electron-Transfer Kinetics, and pH-Dependent Energetics of Si/H2O Interfaces Through Methyl Termination of Si(111) Surfaces” Journal of Physical Chemistry B 2006, 110, 22291–22294

A Comparison of the Self-Exchange and Interfacial Charge-Transfer Rate Constants for Methyl vs. t-Butyl Substituted Os(III) Polypyridyl Complexes.

Hamann, T.W.; Brunschwig, B. S.; Lewis, N. S.; “A Comparison of the Self-Exchange and Interfacial Charge-Transfer Rate Constants for Methyl vs. t-Butyl Substituted Os(III) Polypyridyl Complexes.” Journal of Physical Chemistry B 2006, 110, 25514–2552

Alternative Photoanode Architectures for Dye-Sensitized Solar Cells.

Martinson, A.B.F.; Hamann, T.W.; Pellin, M.; Hupp, J.T.; “Alternative Photoanode Architectures for Dye-Sensitized Solar Cells.” Chemistry – A European Journal 2008, 14, 4458–4467 Graduate Work

Aerogel templated ZnO Dye-Sensitized Solar Cells.

Hamann, T.W.; Martinson, A.B.F.; Pellin, M.; Hupp, J.T.; “Aerogel templated ZnO Dye-Sensitized Solar Cells.” Advanced Materials 2008, 20, 1560–1564

Novel TiO2 Nanostructured Photoanodes in Dye-Sensitized Solar Cells.

Hamann, T.W.; Martinson, A.B.F.; Pellin, M.; Hupp, J.T.; “Novel TiO2 Nanostructured Photoanodes in Dye-Sensitized Solar Cells.” Journal of Physical Chemistry C 2008, 112, 10303–10307

Advancing beyond current generation dye-sensitized solar cells.

Hamann, T.W.; Jensen, R.A.; Martinson, A.B.F.; Van Ryswyk H.; Hupp, J.T.; “Advancing beyond current generation dye-sensitized solar cells.” Energy and Environmental Science 2008, 1, 66–78

Outer-sphere Redox Couples as Shuttles in Dye-Sensitized Solar Cells. Performance Enhancement Based on Photoelectrode Modification via Atomic Layer Deposition.

Hamann, T.W.; Farha O.K.; M.; Hupp, J.T.; “Outer-sphere Redox Couples as Shuttles in Dye-Sensitized Solar Cells. Performance Enhancement Based on Photoelectrode Modification via Atomic Layer Deposition.” Journal of Physical Chemistry C 2008, 112, 19756–19764

Performance Enhancement and Limitations of Cobalt Dipyridyl Redox Shuttles in Dye-Sensitized Solar Cells.

Klahr, B.M.; Hamann, T.W.; “Performance Enhancement and Limitations of Cobalt Dipyridyl Redox Shuttles in Dye-Sensitized Solar Cells.” Journal of Physical Chemistry C 2009, 113, 14040–14045 Postdoctoral Work

Impedance Investigation of Dye-Sensitized Solar Cells Employing Outer-Sphere Redox Shuttles.

Ondersma, J.W.; Hamann, T.W.; “Impedance Investigation of Dye-Sensitized Solar Cells Employing Outer-Sphere Redox Shuttles.” Journal of Physical Chemistry C 2010, 114, 638–645

Paper Title Number 2

Your Name, You. (2010). "Paper Title Number 2." Journal 1. 1(2).

Redox Shuttles in Dye-Sensitized Solar Cells.

Hamann, T.W.; Ondersma, J.W.; “Redox Shuttles in Dye-Sensitized Solar Cells.”Energy and Environmental Science, 2011, 4, 370–381

Photoelectrochemistry of Ultra Thin Film Iron Oxide Electrodes Prepared by Atomic Layer Deposition.

Klahr, B.M.; Martinson, A.B.F.; Hamann, T.W.; “Photoelectrochemistry of Ultra Thin Film Iron Oxide Electrodes Prepared by Atomic Layer Deposition.” Langmuir 2011, 27 (1), 461–468

Current and Voltage Limiting Processes in Thin Film Hematite Electrodes.

Klahr, B.M.; Hamann, T.W.; “Current and Voltage Limiting Processes in Thin Film Hematite Electrodes.” Journal of Physical Chemistry C 2011, 115, 8393–8399

Measurements and Modeling of Recombination from Nanoparticle TiO2 Electrodes.

Ondersma, J.W.; Hamann, T.W.; “Measurements and Modeling of Recombination from Nanoparticle TiO2 Electrodes.” Journal of the American Chemical Society 2011, 133, 8264–8271

Voltage Dependent Photocurrent of Thin Film Hematite Electrodes.

Klahr, B.M.; Hamann, T.W.; “Voltage Dependent Photocurrent of Thin Film Hematite Electrodes.” Applied Physics Letters 2011, 99, 063508

Spatially-Resolved Sources of Dark Current in DSSCs.

Ondersma, J.W.; Hamann, T.W.; “Spatially-Resolved Sources of Dark Current in DSSCs.” Langmuir 2011, 27, 13361–13366

The End of Iodide? Cobalt Complex Redox Shuttles in DSSCs.

Hamann, T.W.; “The End of Iodide? Cobalt Complex Redox Shuttles in DSSCs.” Dalton Transactions, 2012, 41 (11), 3111–3115

Water oxidation at hematite photoelectrodes: the role of surface states.

Klahr, B.M., Gimenez S., Fabregat-Santiago, F., Hamann, T.W., Bisquert, J.; “Water oxidation at hematite photoelectrodes: the role of surface states.” Journal of the American Chemical Society 2012, 134 (9), 4294–4302

Electrochemical and Photoelectrochemical Investigation of Water Oxidation with Hematite Electrodes.

Klahr, B.M., Gimenez S., Fabregat-Santiago, F., Bisquert, J., Hamann, T.W.; “Electrochemical and Photoelectrochemical Investigation of Water Oxidation with Hematite Electrodes.” Energy and Environmental Science 2012, 5 (6), 7626–7636

Splitting Water with Rust: Hematite Photoelectrochemistry.

Hamann, T.W.; “Splitting Water with Rust: Hematite Photoelectrochemistry.” Dalton Transactions, 2012, 41, 7830–7834

Photoelectrochemical and Impedance Spectroscopic Investigation of Water Oxidation with “Co-Pi

Klahr, B.M., Gimenez S., Fabregat-Santiago, F., Bisquert, J., Hamann, T.W.; “Photoelectrochemical and Impedance Spectroscopic Investigation of Water Oxidation with “Co-Pi” coated Hematite Electrodes.” Journal of the American Chemical Society 2012, 134 (40), 16693–16700

Conduction Band Energy Determination by Variable Temperature Spectroelectrochemistry.

Ondersma, J.W.; Hamann, T.W.; “Conduction Band Energy Determination by Variable Temperature Spectroelectrochemistry.” Energy and Environmental Science 2012, 5 (11), 9476–9480

Recombination and Redox Couples in Dye-Sensitized Solar Cells.

Ondersma, J.W.; Hamann, T.W.; “Recombination and Redox Couples in Dye-Sensitized Solar Cells.” Coordination Chemistry Reviews 2013, 257, 1533–1543

Highly Photoactive Ti-doped α-Fe2O3 Thin Film Electrodes; Resurrection of the Dead Layer.

Zandi, O., Klahr, B.M., Hamann, T.W.; “Highly Photoactive Ti-doped α-Fe2O3 Thin Film Electrodes; Resurrection of the Dead Layer.” Energy and Environmental Science 2013, 6, 634–642

Fast Low Spin Cobalt Complex Redox Shuttles for Dye-Sensitized Solar Cells.

Xie, Y., Hamann, T.W.; “Fast Low Spin Cobalt Complex Redox Shuttles for Dye-Sensitized Solar Cells.” Journal of Physical Chemistry Letters, 2013, 4, 328–332

Atomic Layer Deposition of a Sub-monolayer Catalyst for the Enhanced Photoelectrochemical Performance of Water Oxidation with Hematite.

Riha, S.C., Klahr, B.M., Tyo, E.C., Seifert, S., Vajda S., Pellin, M.J., Hamann, T.W., Martinson, A.B.F.; “Atomic Layer Deposition of a Sub-monolayer Catalyst for the Enhanced Photoelectrochemical Performance of Water Oxidation with Hematite.” ACS Nano, 2013, 7 (3), 2396–2405

Photocatalytic Water Oxidation with Hematite Electrodes.

Young, M.H., Klahr, B.M., Zandi, O., Hamann, T.W.; “Photocatalytic Water Oxidation with Hematite Electrodes.” Catalysis Science & Technology, 2013, 2013, 3, 1660–1671

Water splitting: An adaptive junction.

Hamann, T.W.; “Water splitting: An adaptive junction.” Nature Materials 2014, 13, 3–4

Substrate Dependent Water Splitting with Ultrathin α-Fe2O3 Electrodes

Zandi, O., Beardslee, J.A., Hamann, T.W.; “Substrate Dependent Water Splitting with Ultrathin α-Fe2O3 Electrodes” Journal of Physical Chemistry C 2014, 118 (30), 16494–16503

Water Oxidation on Hematite Photoelectrodes: Insight on the Nature and Identity of Surface States through In-situ Spectroelectrochemistry

Klahr, B.M.; Hamann, T.W.; “Water Oxidation on Hematite Photoelectrodes: Insight on the Nature and Identity of Surface States through In-situ Spectroelectrochemistry” Journal of Physical Chemistry C 2014, 118 (19), 10393–10399

Enhanced Photovoltage Through Selective Surface State Removal

Zandi, O., Hamann, T.W.; “Enhanced Photovoltage Through Selective Surface State Removal” Journal of Physical Chemistry Letters 2014, 5 (9), 1522–1526

Cyclometalated sensitizers for DSSCs employing cobalt redox shuttles

Soman, S., Xie, Y., Hamann, T.W.; “Cyclometalated sensitizers for DSSCs employing cobalt redox shuttles” Polyhedron, 2014, 82, 139–147

On Theoretical and Experimental Titanium Incorporation into Hematite Nanostructures

Kronawitter, C.X., Zegkinoglou, I., Shen, S.H., Liao, P., Cho, I.S., Zandi, O., Lashgari, K., Westin, G., Guo, J.H., Himpsel, F.J., Carter, E.A., Zheng, X.L., Hamann, T.W., Koel, B.E., Mao, S.S., Vayssieres, L.; “On Theoretical and Experimental Titanium Incorporation into Hematite Nanostructures” Energy and Environmental Science, 2014, 7, 3100–3121

Enhanced photocatalytic water oxidation efficiency with Ni(OH)2 catalysts deposited on α-Fe2O3 via ALD.

Young, K.M.H., Hamann, T.W.; “Enhanced photocatalytic water oxidation efficiency with Ni(OH)2 catalysts deposited on α-Fe2O3 via ALD.” Chemical Communications 2014, 50 (63) 8727–8730

Perovskites take lead in solar hydrogen race.

Hamann, T.W.; “Perovskites take lead in solar hydrogen race.” Science 2014, 345, 1566–1567

Competitive Photoelectrochemical Methanol and Water Oxidation with Hematite Electrodes.

Klahr, B., Gimenez, S. Zandi, O., Fabregat-Santiago, F., Hamann, T.W.; “Competitive Photoelectrochemical Methanol and Water Oxidation with Hematite Electrodes.” ACS Applied Materials & Interfaces 2015, 7 (14), 7653–7660

Energetics of Nanoparticle Semiconductor Electrodes Determined by Spectroelectrochemical Measurements of Free Electrons.

Mandal, D., Hamann, T.W.; “Energetics of Nanoparticle Semiconductor Electrodes Determined by Spectroelectrochemical Measurements of Free Electrons.” Physical Chemistry Chemical Physics 2015, 17, 11156–11160

Electrolysis of Liquid Ammonia for Hydrogen Generation

Little, D.J., Smith, M.R., Hamann, T.W.; “Electrolysis of Liquid Ammonia for Hydrogen Generation” Energy & Environmental Science, 2015, 8, 2775–2781

The Potential versus Current State of Water Splitting with Hematite

Zandi, O., Hamann, T.W.; “The Potential versus Current State of Water Splitting with Hematite” Physical Chemistry Chemical Physics, 2015, 17, 22485–22503

Regeneration and Recombination Reactions in Dye Sensitized Solar Cells Employing Cobalt Redox Shuttles

Xie, Y., Baillargeon, J., Hamann, T.W.; “Regeneration and Recombination Reactions in Dye Sensitized Solar Cells Employing Cobalt Redox Shuttles” Journal of Physical Chemistry C., 2015, 119 (50), 28155–28166

Atomic Layer Stack Deposition-Annealing Synthesis of CuWO4

Gao, Y., Zandi, O., Hamann, T.W.; “Atomic Layer Stack Deposition-Annealing Synthesis of CuWO4” Journal of Materials Chemistry A, 2016, 4, 2826–2830

Enhanced Charge Separation and Collection in High Performance Electrodeposited Hematite Films

Zandi, O., Schon, A.R., Hajibabaei, H., Hamann, T.W.; “Enhanced Charge Separation and Collection in High Performance Electrodeposited Hematite Films” Chemistry of Materials, 2016, 28 (3), 765–771

Charge distribution in nanostructured TiO2 photoanodes determined by quantitative analysis of the band edge unpinning

Mandal, D., Hamann, T.W.; “Charge distribution in nanostructured TiO2 photoanodes determined by quantitative analysis of the band edge unpinning” ACS Applied Materials & Interfaces 2016, 8 (1), 419–424

Determination of Photoelectrochemical Water Oxidation Intermediates on a-Fe2O3 Electrode Surfaces Employing Operando ATR–IR Spectroscopy

Zandi, O., Hamann, T.W.; “Determination of Photoelectrochemical Water Oxidation Intermediates on a-Fe2O3 Electrode Surfaces Employing Operando ATR–IR Spectroscopy” Nature Chemistry, 2016, 8, 778–783

Tantalum Nitride Films Integrated with Transparent Conductive Oxide Substrates via Atomic Layer Deposition for Photoelectrochemical Water Splitting

Hajibabaei, H., Zandi, O., Hamann, T.W.; “Tantalum Nitride Films Integrated with Transparent Conductive Oxide Substrates via Atomic Layer Deposition for Photoelectrochemical Water Splitting” Chemical Science, 2016, 7, 6760–6767

Quantitative hole collection for photoelectrochemical water oxidation with CuWO4

Gao, Y., Hamann, T.W.; “Quantitative hole collection for photoelectrochemical water oxidation with CuWO4” Chemical Communications 2017, 53, 1285–1288

Bifurcation of Regeneration and Recombination in Dye-Sensitized Solar Cells via Electronic Manipulation of Tandem Cobalt Redox Shuttles

Baillargeon, J., Xie, Y., Hamann, T.W.; “Bifurcation of Regeneration and Recombination in Dye-Sensitized Solar Cells via Electronic Manipulation of Tandem Cobalt Redox Shuttles” ACS Applied Materials & Interfaces 2017, 9 (39), 33544–33548

As Precious as Platinum: Iron Nitride for Electrocatalytic Oxidation of Liquid Ammonia

Little, D.J., Edwards, D., Smith, M.R., Hamann, T.W.; “As Precious as Platinum: Iron Nitride for Electrocatalytic Oxidation of Liquid Ammonia” ACS Applied Materials & Interfaces 2017, 9 (19), 16228–16235

Elucidation of CuWO4 Surface States During PEC Water Oxidation

Gao, Y., Hamann, T.W.; “Elucidation of CuWO4 Surface States During PEC Water Oxidation” Journal of Physical Chemistry Letters 2017, 8 (12), 2700–2704

Interface Control of PEC Water Oxidation Performance with Ni1-xFexOy Modified Hematite Photoanodes

Hajibabaei, H., Schon, A.R., Hamann, T.W.; “Interface Control of PEC Water Oxidation Performance with Ni1-xFexOy Modified Hematite Photoanodes” Chemistry of Materials 2017, 29 (16), 6674–6683

Direct in Situ Measurement of Charge Transfer Processes During Photoelectrochemical Water Oxidation on Catalyzed Hematite

Qiu, J., Hajibabaei, H., Nellist, M.R., Laskowski, F.A.L, Hamann, T.W., Boettcher, S.W.; “Direct in Situ Measurement of Charge Transfer Processes During Photoelectrochemical Water Oxidation on Catalyzed Hematite” ACS Central Science 2017, 3 (9), 1015–1025

Roadmap on Solar Water Splitting: Current Status and Future Prospects

Chu, S., Li, W., Yan, Y., Hamann, T.W., Shih, I., Wang, D., Mi, Z.; “Roadmap on Solar Water Splitting: Current Status and Future Prospects” Nano Futures 2017, 1, 022001

Material and Interfaces for Energy Related Applications

Farha, O., Hamann, T.W., Martinson, A.B.F., Mulfort, K.; “Material and Interfaces for Energy Related Applications” ACS Applied Materials & Interfaces 2017, 9 (39), 33377–33378

Selective Electrodeposition of Tantalum(V) Oxide Electrodes

Hajibabaei, H., Hamann, T.W.; “Selective Electrodeposition of Tantalum(V) Oxide Electrodes” Langmuir 2017, 33 (41), 10800–10806

Potential-sensing electrochemical atomic force microscopy enables in-operando analysis of electrocatalysis during (photo)electrochemical water splitting

Nellist, M.R., Laskowski, F.A.L., Qiu, J., Hajibabaei, H., Sivula, K., Hamann, T.W., Boettcher, S.W.; “Potential-sensing electrochemical atomic force microscopy enables in-operando analysis of electrocatalysis during (photo)electrochemical water splitting” Nature Energy 2018, 3, 46–52

Impact of Ultrathin C60 on Perovskite Photovoltaic Devices

Liu, D., Wang, Q., Traverse, C.J., Yang, C., Young, M., Kuttipillai, P.S., Lunt, S.Y., Hamann, T.W., Lunt, R.R.; “Impact of Ultrathin C60 on Perovskite Photovoltaic Devices” ACS Nano 2018, 12 (1) 876–883

Catalyst Deposition on Photoanodes: The Roles of Intrinsic Catalytic Activity, Catalyst Electrical Conductivity, and Semiconductor Morphology

Qiu, J., Hajibabaei, H., Nellist, M.R., Laskowski, F.A.L, Hamann, T.W., Boettcher, S.W.; “Catalyst Deposition on Photoanodes: The Roles of Intrinsic Catalytic Activity, Catalyst Electrical Conductivity, and Semiconductor Morphology” ACS Energy Letters 2018, 3, 961–969

Elucidating the Impact of Thin Film Texture on Charge Transport and Collection in Perovskite Solar Cells

Jiang, C., Xie, Y., Lunt, R.R., Hamann, T.W., Zhang, P.; Elucidating the Impact of Thin Film Texture on Charge Transport and Collection in Perovskite Solar Cells" ACS Omega 2018, 3 (3), 3522–3529

Overcoming Bulk Recombination Limits of Layered Perovskite Solar Cells with Mesoporous Substrates

Wang, Q., Jiang, C., Zhang, P., Hamann, T.W.; “Overcoming Bulk Recombination Limits of Layered Perovskite Solar Cells with Mesoporous Substrates” Journal of Physical Chemistry C 2018, 122 (25), 14177–14185

Ultrathin Hole Extraction Layer for Efficient Inverted Perovskite Solar Cells

Liu, D., Wang, Q., Elinski, M., Chen, P., Traverse, C.J., Yang, C., Young, M., Hamann, T.W., Lunt, R.R.; “Ultrathin Hole Extraction Layer for Efficient Inverted Perovskite Solar Cells” ACS Omega 2018, 3 (6), 6339–6345

Correction to Catalyst Deposition on Photoanodes: The Roles of Intrinsic Catalytic Activity, Catalyst Electrical Conductivity, and Semiconductor Morphology

Qiu, J., Hajibabaei, H., Nellist, M.R., Laskowski, F.A.L, Oener, S.Z., Hamann, T.W., Boettcher, S.W.; “Correction to Catalyst Deposition on Photoanodes: The Roles of Intrinsic Catalytic Activity, Catalyst Electrical Conductivity, and Semiconductor Morphology” ACS Energy Letters 2018, 3, 1771–1771

Spin-Doctoring Cobalt Redox Shuttles for Dye-Sensitized Solar Cells

Baillargeon, J., Xie, Y., Raithel, A.L., Ghaffari, B., Staples, R.J., Hamann, T.W.; “Spin-Doctoring Cobalt Redox Shuttles for Dye-Sensitized Solar Cells” Inorganic Chemistry 2018, 57 (18), 11633–11645

Improved Performance Induced by in-situ Ligand Exchange Reactions of Copper Bipyridyl Redox Couples in Dye-Sensitized Solar Cells

Wang, Y., Hamann, T.W.; “Improved Performance Induced by in-situ Ligand Exchange Reactions of Copper Bipyridyl Redox Couples in Dye-Sensitized Solar Cells” Chemical Communications 2018, 54, 12361–12364

Homogenous Electro-Catalytic Oxidation of Ammonia to N2 Under Mild Conditions

Habib-Zadeh, F., Miller, S.L., Hamann, T.W., Smith, M.R.; “Homogenous Electro-Catalytic Oxidation of Ammonia to N2 Under Mild Conditions” Proceedings of the National Academy of Science 2019, 116 (8) 2849–2853

Thin film photoelectrodes for solar water splitting

He, Y., Hamann, T.W., Wang, D.; “Thin film photoelectrodes for solar water splitting” Chemical Society Reviews 2019, 48, 2182–2215

Dependence of interface energetics and kinetics on catalyst loading in a photoelectrochemical system

He, Y., Vanka, S., Gao, T., He, D., Espano, J., Zhao, Y., Dong, Q., Lang, C., Wang, Y., Hamann, T.W., Mi, Z., Wang, D. "Dependence of interface energetics and kinetics on catalyst loading in a photoelectrochemical system" Nano Research, 2019, 12 (9) 2378–2384

New Electrolytic Devices Produce Ammonia with Exceptional Selectivity

Qing, G., Hamann, T.W.; “New Electrolytic Devices Produce Ammonia with Exceptional Selectivity” Joule 2019, 3 (3) 634–636

Direct Deposition of Crystalline Ta3N5 Thin Films on FTO for PEC Water Splitting

Hajibabaei, H., Little, D.J., Pandey, A., Wang, D., Mi, Z., Hamann, T.W “Direct Deposition of Crystalline Ta3N5 Thin Films on FTO for PEC Water Splitting” ACS Applied Materials & Interfaces 2019, 11 (17), 15457–15466

Modulating Cellular Cytotoxicity and Phototoxicity of Fluorescent Organic Salts through Counterion Pairing

Broadwater, D., Bates, M., Jayaram, M., Young, M., He, J., Raithel, A.L., Hamann, T.W., Zhang, W., Borhan, B., Lunt, R.R., Lunt, S.Y. “Modulating Cellular Cytotoxicity and Phototoxicity of Fluorescent Organic Salts through Counterion Pairing” Scientific reports 2019, 9, 15288

Interface Passivation to Overcome Shunting in Semiconductor-Catalyst Junctions

Shadabipour, P., Hamann, T.W.; “Interface Passivation to Overcome Shunting in Semiconductor-Catalyst Junctions” Chemical Communications 2020, 56, 2570–2573

Real-Time Observation of the Diffusion Mechanism Progression from Liquid to Solid-State of Transition Metal Complexes

Kim, T.Y., Wang, Y., Raithel, A.L., Hamann, T.W.; “Real-Time Observation of the Diffusion Mechanism Progression from Liquid to Solid-State of Transition Metal Complexes” ACS Energy Letters 2020, 5, 2, 583–588

Low-Spin Cobalt(II) Redox Shuttle by Isocyanide Coordination

Raithel, A.L., Kim, T.Y., Nielsen, K., Staples, R.J., Hamann, T.W.; “Low-Spin Cobalt(II) Redox Shuttle by Isocyanide Coordination” Sustainable Energy & Fuels 2020 4, 2497–2507

Recent Advances and Challenges of Electrocatalytic N2 Reduction to Ammonia

Qing, G., Ghazfar, R., Jackowski, S.T., Habibzadeh, F., Maleka Ashtiani, M., Chen, C. Smith, M.R., Hamann, T.W.; “Recent Advances and Challenges of Electrocatalytic N2 Reduction to Ammonia” Chemical Reviews 2020, 120, 12, 5437–5516

An InGaN/Si Double-Junction Photocathode for Unassisted Solar Water Splitting

Vanka, S., Zhou, B. , Awni, R.A., Song, Z., Chowdhury, F.A., Liu, X., Hajibabaei, H., Shi, W., Navid, I.A., Xiao, Y., Pandey, A., Chen, R., Botton, G.A., Hamann, T.W., Wang, D., Yan, Y., Mi, Z.; “An InGaN/Si Double-Junction Photocathode for Unassisted Solar Water Splitting” ACS Energy Letters 2020 5, 12, 3741–3751

Charge Carrier Dynamics at the CuWO4/Electrocatalyst Interface for Photoelectrochemical Water Oxidation

Shadabipour, P., Raithel, A.L., Hamann, T.W.; “Charge Carrier Dynamics at the CuWO4/Electrocatalyst Interface for Photoelectrochemical Water Oxidation” ACS Applied Materials & Interfaces 2020 12, 45, 50592–50599

Photochemical Charge Separation and Dye Self-Oxidation Control Performance of Fluorescein, Rose Bengal, and Triphenylamine Dye-Sensitized Solar Cells

Han, R., Kim, T.Y., Hamann, T.W., Osterloh, F.; “Photochemical Charge Separation and Dye Self-Oxidation Control Performance of Fluorescein, Rose Bengal, and Triphenylamine Dye-Sensitized Solar Cells” Journal of Physical Chemistry 2020 124, 48, 26174–26183

Interfacial Engineering at Quantum Dot-Sensitized TiO2 Photoelectrodes for Ultrahigh Photocurrent Generation

Kim, T.Y., Kim, B.S., Oh, J.G., Park, S.C., Jang, J., Hamann, T.W., Kang, Y.S., Bang, J.H., Giménez, S., Kang Y.S.; “Interfacial Engineering at Quantum Dot-Sensitized TiO2 Photoelectrodes for Ultrahigh Photocurrent Generation” ACS Applied Materials and Interfaces 2021, 13 (5), 6208–6218

Crystallographic Effects of GaN Nanostructures in Photoelectrochemical Reaction

Xiao, Y., Vanka, S., Pham, T.A., Dong, W.J. Sun, Y, Liu, X., Navid, A.N., Varley, J.B., Hajibabaei, H., Hamann, T.W., Ogitsu, T., Mi, Z.; “Crystallographic Effects of GaN Nanostructures in Photoelectrochemical Reaction” Nano Letters 2022, 22, 6, 2236–2243

"Understanding Mass Transport in Copper Electrolyte-Based Dye-Sensitized Solar Cells: ACS Applied Energy Materials 2022, 5, 3, 2647–2654

Velore, J., Pradhan, S.C., Hamann, T.W., Hagfeldt, A., Unni, K.N.N., Soman, S.; "Understanding Mass Transport in Copper Electrolyte-Based Dye-Sensitized Solar Cells: ACS Applied Energy Materials 2022, 5, 3, 2647–2654

Ammonia eurefstics: Electrolytes for liquid energy storage and conversion at room temperature and ambient pressure

Mi, C., Ghazfar, R., Smith, M.R., Hamann, T.W.; “Ammonia eurefstics: Electrolytes for liquid energy storage and conversion at room temperature and ambient pressure” Joule 2022, 6, 1–10

An Efficient Copper-based Redox Shuttle Bearing a Hexadentate Polypyridyl Ligand for DSCs Under Low-Light Conditions

Devdass, A., Watson, J., Firestone, E., Hamann, T.W., Delcamp, J.H., Jurss, J.W.; “An Efficient Copper-based Redox Shuttle Bearing a Hexadentate Polypyridyl Ligand for DSCs Under Low-Light Conditions” ACS Applied Energy Materials, 2022, 5, 5964–5973

Molecular Switch Cobalt Redox Shuttle with a Tunable Hexadentate Ligand

Raithel, A.L., Meador, W., Kim, T.Y., Staples, R.J., Delcamp, J., Hamann, T.W.; “Molecular Switch Cobalt Redox Shuttle with a Tunable Hexadentate Ligand” Journal of the American Chemical Society 2023, 145, 2, 1367–1377

Metal complex molecular solids showing band-like transport driven by in situ ligand exchange

Kim, T.Y., Suh, E.H., Firestone, E., Raithel, A.L, Xu, C.Q., Ke, X., Jang, J., McCracken, J., and Hamann, T.W.; “Metal complex molecular solids showing band-like transport driven by in situ ligand exchange” Chemistry of Materials 2023, 35, 17, 6726–6736

A BiVO4 - liquid junction photovoltaic cell with 0.2% solar energy conversion efficiency

Daemi, S., Kaushik, S., Das, S., Hamann, T.W., Osterloh, F.; “A BiVO4 - liquid junction photovoltaic cell with 0.2% solar energy conversion efficiency” Journal of the American Chemical Society 2023, 145, 47, 25797–25805

Deciphering the Mechanism of Lewis Base Triggered Conversion of Ammonia to Molecular Nitrogen and Methylamine to Cyanide

Chen, C. P., Alharbib, W., Cundari, T.R., Hamann, T.W., and Smith III, M.R.; “Deciphering the Mechanism of Lewis Base Triggered Conversion of Ammonia to Molecular Nitrogen and Methylamine to Cyanide” Journal of the American Chemical Society 2023, 145, 48, 26339–26349

Mechanism-Guided Kinetic Analysis of Electrocatalytic Proton Reduction Mediated by a Cobalt Catalyst Bearing a Pendant Basic Site

Amtawong, J., Bein, G.P., Montgomery, C.L., Raithel, A.L., Hamann, T.W., Chen, C.H., and Dempsey, J.L.; “Mechanism-Guided Kinetic Analysis of Electrocatalytic Proton Reduction Mediated by a Cobalt Catalyst Bearing a Pendant Basic Site” Journal of the American Chemical Society, 2024, 146, 6, 3742–3754

Open-Cage Copper Complexes Modulate Coordination and Charge Transfer

Firestone, E., Staples, R.J., Hamann, T.W.; “Open-Cage Copper Complexes Modulate Coordination and Charge Transfer” Inorganic Chemistry, 2024, 63, 26, 12081–12088

Impact of Photoanode Thickness on Recombination Dynamics and Indoor Photovoltaic Performance in Dye-sensitized Solar Cells

George, A., Hamann, T.W., Soman, S.; “Impact of Photoanode Thickness on Recombination Dynamics and Indoor Photovoltaic Performance in Dye-sensitized Solar Cells” Energy & Fuels, 2025 39, 10, 4927–4938 (invited for special edition in honor of Prof. Prashant Kamat)

Single Component Dye Sensitized Solar Cells Enabled by Copper Chemistry; Introduction of the Retro Cell

Kaushik, S., Adesanya, M., Hamann, T.W.; “Single Component Dye Sensitized Solar Cells Enabled by Copper Chemistry; Introduction of the Retro Cell” Energy & Fuels, 2025 39, 11, 5604–5611 (invited for special edition in honor of Prof. Prashant Kamat)

Electrocatalytic Ammonia Oxidation with Coordinatively Saturated Ruthenium Catalyst

C. P. Chen, O. Abubakar, X. Zhang, and T. W. Hamann, “Electrocatalytic Ammonia Oxidation with Coordinatively Saturated Ruthenium Catalyst” Inorganic Chemistry 2025, 64, 27, 13599–13603

Universal Reversible Hydrogen Potential for Electrocatalytic Ammonia Splitting Reactions in Nonaqueous Solvents from Unified pH Measurements

C. Mi, J. Saame, A. Heering, X. Zhang, O. Abubakar, I. Leito, and T. W. Hamann, “Universal Reversible Hydrogen Potential for Electrocatalytic Ammonia Splitting Reactions in Nonaqueous Solvents from Unified pH Measurements” Inorganic Chemistry 2025, 64, 32, 16423–16432

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Tutorial 1 on Relevant Topic in Your Field

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