Journal Articles

2024

Contrasting Views of the Electric Double Layer in Electrochemical CO2 Reduction: Continuum Models vs Molecular Dynamics

E. F. Johnson; S. Haussener 

Journal Of Physical Chemistry C. 2024-06-14. Vol. 128, num. 25, p. 10450-10464. DOI : 10.1021/acs.jpcc.4c03469.

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High-throughput parallel testing of ten photoelectrochemical cells for water splitting: case study on the effects of temperature in hematite photoanodes

R. Valenza; I. T. Holmes-Gentle; F. E. Bedoya-Lora; S. Haussener 

Sustainable Energy & Fuels. 2024-05-30. DOI : 10.1039/d4se00451e.

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Reversible photo-electrochemical device for solar hydrogen and power generation

M. Patel; A. Cattry; M. Jonin; S. Tembhurne; S. Haussener 

Cell Reports Physical Science. 2024.  p. 101984. DOI : 10.1016/j.xcrp.2024.101984.

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Rate-Determining Step for Electrochemical Reduction of Carbon Dioxide into Carbon Monoxide at Silver Electrodes

E. Boutin; S. Haussener 

ACS Catalysis. 2024.  p. 8437-8445. DOI : 10.1021/acscatal.4c00192.

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Stability and degradation of (oxy)nitride photocatalysts for solar water splitting

V. Werner; F. E. Bedoya Lora; Z. Chai; J. Hörndl; J. Praxmair et al. 

RSC Sustainability. 2024. DOI : 10.1039/D4SU00096J.

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In Situ Synthesis of CuxO/N Doped Graphdiyne with Pyridine N Configuration for Ammonia Production via Nitrate Reduction

J. Li; R. Valenza; S. Haussener 

Small. 2024. DOI : 10.1002/smll.202310467.

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Radiative transfer in luminescent solar concentrators

S. Li; S. Haussener 

Journal of Quantitative Spectroscopy and Radiative Transfer. 2024. Vol. 319, p. 108957. DOI : 10.1016/j.jqsrt.2024.108957.

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Quantifying mass transport limitations in a microfluidic CO2 electrolyzer with a gas diffusion cathode

V. G. Agarwal; S. Haussener 

Communications Chemistry. 2024. Vol. 7, num. 1. DOI : 10.1038/s42004-024-01122-5.

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2023

Single emulsion drops for photocatalytic water splitting as a membrane-free approach to product separation

S. A. Savant; G. De Angelis; S. Nandy; E. Amstad; S. Haussener 

Cell Reports Physical Science. 2023.  p. 101755. DOI : 10.1016/j.xcrp.2023.101755.

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Morphology and Transport Characterization of Catalyst Layers for CO2 Reduction

F. Lorenzutti; S. Haussener 

Journal of The Electrochemical Society. 2023. Vol. 170, num. 10, p. 104507. DOI : 10.1149/1945-7111/acff1c.

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Photoelectrochemical behaviour of photoanodes under high photon fluxes

I. Holmes-Gentle; F. E. Bedoya-Lora; L. Aimone; S. Haussener 

Journal of Materials Chemistry. 2023. Vol. A11, num. 44, p. 23895-23908. DOI : 10.1039/D3TA05257E.

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Surface Charge Boundary Condition Often Misused in CO2 Reduction Models

E. F. Johnson; E. Boutin; S. Haussener 

Journal Of Physical Chemistry C. 2023-09-08. Vol. 127, num. 37, p. 18784-18790. DOI : 10.1021/acs.jpcc.3c05364.

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Photovoltaics at multi-terawatt scale: Waiting is not an option

N. M. Haegel; P. Verlinden; M. Victoria; P. Altermatt; H. Atwater et al. 

Science. 2023. Vol. 380, num. 6640, p. 39-42. DOI : 10.1126/science.adf6957.

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Pathways to enhance electrochemical CO2 reduction identified through direct pore-level modeling

E. F. Johnson; E. Boutin; S. Liu; S. Haussener 

EES Catalysis. 2023. DOI : 10.1039/D3EY00122A.

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Multiphysics model for assessing photoelectrochemical phenomena under concentrated irradiation

F. E. Bedoya Lora; I. T. Holmes-Gentle; S. Haussener 

Electrochimica Acta. 2023. Vol. 462, p. 142703. DOI : 10.1016/j.electacta.2023.142703.

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Assessment of the technological viability of photoelectrochemical devices for oxygen and fuel production on Moon and Mars

B. Ross; S. Haussener; K. Brinkert 

Nature Communications. 2023. Vol. 14, num. 3141. DOI : 10.1038/s41467-023-38676-2.

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Design and operational guidelines of solar-driven catalytic conversion of CO2 and H2 to fuels

S. Li; S. Haussener 

Applied Energy. 2023-01-20. Vol. 334, p. 120617. DOI : 10.1016/j.apenergy.2022.120617.

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Kilowatt-scale solar hydrogen production system using a concentrated integrated photoelectrochemical device

I. Holmes-Gentle; S. Tembhurne; C. Suter; S. Haussener 

Nature Energy. 2023-04-10. DOI : 10.1038/s41560-023-01247-2.

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Recognizing the life and scientific contributions of a pioneer in solar thermochemistry: Prof. Aldo Steinfeld

P. G. Loutzenhiser; R. Bader; T. A. Cooper; P. Furler; M. E. Galvez et al. 

Solar Energy. 2023-02-16. Vol. 252, p. 401-402. DOI : 10.1016/j.solener.2023.01.050.

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Geodesic Convolutional Neural Network Characterization of Macro-Porous Latent Thermal Energy Storage

N. Mallya; P. B. Baqué; P. Yvernay; A. Pozzetti; P. Fua et al. 

ASME Journal of Heat and Mass Transfer. 2023-02-03. Vol. 145, num. 5, p. 052902. DOI : 10.1115/1.4056663.

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2022

2022 roadmap on low temperature electrochemical CO2 reduction

I. E. L. Stephens; K. Chan; A. Bagger; S. W. Boettcher; J. Bonin et al. 

Journal Of Physics-Energy. 2022-10-01. Vol. 4, num. 4, p. 042003. DOI : 10.1088/2515-7655/ac7823.

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Solar fuel processing: Comparative mini-review on research, technology development, and scaling

S. Haussener 

Solar Energy. 2022-10-14. Vol. 246, p. 294-300. DOI : 10.1016/j.solener.2022.09.019.

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Modeling the Photostability of Solar Water-Splitting Devices and Stabilization Strategies

F. Nandjou; S. Haussener 

ACS Applied Materials & Interfaces. 2022-09-19. DOI : 10.1021/acsami.2c08204.

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Enhanced Solar-to-Fuel Efficiency of Ceria-Based Thermochemical Cycles via Integrated Electrochemical Oxygen Pumping

W. Bai; H. Huang; C. Suter; S. Haussener; M. Lin 

Acs Energy Letters. 2022-08-12. Vol. 7, num. 8, p. 2711-2716. DOI : 10.1021/acsenergylett.2c01318.

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Integrated solar-driven high-temperature electrolysis operating with concentrated irradiation

M. Lin; C. Suter; S. Diethelm; J. Van Herle; S. Haussener 

Joule. 2022-08-23. DOI : 10.1016/j.joule.2022.07.013.

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