Addressing Challenges for Operating Electrochemical Solar Fuels Technologies Under Variable and Diurnal Conditions

Kyra Yap; Sol Lee; Tobias Kistler; Darci Collins; Emily Warren; Harry Atwater; Thomas Jaramillo; Chengxiang Xiang; Adam Nielander

doi:10.3389/fenrg.2024.1483914

Addressing Challenges for Operating Electrochemical Solar Fuels Technologies Under Variable and Diurnal Conditions

Kyra Yap
, Sol Lee
, Tobias Kistler
, Darci Collins
, Emily Warren
, Harry Atwater
, Thomas Jaramillo
, Chengxiang Xiang
, Adam Nielander

Chemistry and Nanoscience

SLAC National Accelerator Laboratory
Stanford University
California Institute of Technology
Lawrence Berkeley National Laboratory
Colorado School of Mines

Research output: Contribution to journal › Article › peer-review

1 Scopus Citations

Abstract

The outdoor operation of electrochemical solar fuels devices must contend with challenges presented by the cycles of solar irradiance, temperature, and other meteorological factors. Herein, we discuss challenges associated with these fluctuations presented over three timescales, including the effects of diurnal cycling over the course of many days, a single diurnal cycle over the course of hours, and meteorological phenomena that cause fluctuations on the order of seconds to minutes. We also highlight both reaction-independent and reaction-specific effects of variable conditions for the hydrogen evolution reaction and CO2 reduction reaction. We identify key areas of research for advancing the outdoor operation of solar fuels technology and highlight the need for metrics and benchmarks to enable the comparison of diurnal studies across systems and geographical locations.

Original language	American English
Number of pages	11
Journal	Frontiers in Energy Research
Volume	12
DOIs	https://doi.org/10.3389/fenrg.2024.1483914
State	Published - 2024

NLR Publication Number

NREL/JA-5900-92321

Keywords

CO2 reduction
durability
electrocatalysis
electrochemistry
hydrogen
photovoltaics
solar fuels and chemicals

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10.3389/fenrg.2024.1483914

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title = "Addressing Challenges for Operating Electrochemical Solar Fuels Technologies Under Variable and Diurnal Conditions",

abstract = "The outdoor operation of electrochemical solar fuels devices must contend with challenges presented by the cycles of solar irradiance, temperature, and other meteorological factors. Herein, we discuss challenges associated with these fluctuations presented over three timescales, including the effects of diurnal cycling over the course of many days, a single diurnal cycle over the course of hours, and meteorological phenomena that cause fluctuations on the order of seconds to minutes. We also highlight both reaction-independent and reaction-specific effects of variable conditions for the hydrogen evolution reaction and CO2 reduction reaction. We identify key areas of research for advancing the outdoor operation of solar fuels technology and highlight the need for metrics and benchmarks to enable the comparison of diurnal studies across systems and geographical locations.",

keywords = "CO2 reduction, durability, electrocatalysis, electrochemistry, hydrogen, photovoltaics, solar fuels and chemicals",

author = "Kyra Yap and Sol Lee and Tobias Kistler and Darci Collins and Emily Warren and Harry Atwater and Thomas Jaramillo and Chengxiang Xiang and Adam Nielander",

year = "2024",

doi = "10.3389/fenrg.2024.1483914",

language = "American English",

volume = "12",

journal = "Frontiers in Energy Research",

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publisher = "Frontiers Media SA",

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TY - JOUR

T1 - Addressing Challenges for Operating Electrochemical Solar Fuels Technologies Under Variable and Diurnal Conditions

AU - Yap, Kyra

AU - Lee, Sol

AU - Kistler, Tobias

AU - Collins, Darci

AU - Warren, Emily

AU - Atwater, Harry

AU - Jaramillo, Thomas

AU - Xiang, Chengxiang

AU - Nielander, Adam

PY - 2024

Y1 - 2024

N2 - The outdoor operation of electrochemical solar fuels devices must contend with challenges presented by the cycles of solar irradiance, temperature, and other meteorological factors. Herein, we discuss challenges associated with these fluctuations presented over three timescales, including the effects of diurnal cycling over the course of many days, a single diurnal cycle over the course of hours, and meteorological phenomena that cause fluctuations on the order of seconds to minutes. We also highlight both reaction-independent and reaction-specific effects of variable conditions for the hydrogen evolution reaction and CO2 reduction reaction. We identify key areas of research for advancing the outdoor operation of solar fuels technology and highlight the need for metrics and benchmarks to enable the comparison of diurnal studies across systems and geographical locations.

AB - The outdoor operation of electrochemical solar fuels devices must contend with challenges presented by the cycles of solar irradiance, temperature, and other meteorological factors. Herein, we discuss challenges associated with these fluctuations presented over three timescales, including the effects of diurnal cycling over the course of many days, a single diurnal cycle over the course of hours, and meteorological phenomena that cause fluctuations on the order of seconds to minutes. We also highlight both reaction-independent and reaction-specific effects of variable conditions for the hydrogen evolution reaction and CO2 reduction reaction. We identify key areas of research for advancing the outdoor operation of solar fuels technology and highlight the need for metrics and benchmarks to enable the comparison of diurnal studies across systems and geographical locations.

KW - CO2 reduction

KW - durability

KW - electrocatalysis

KW - electrochemistry

KW - hydrogen

KW - photovoltaics

KW - solar fuels and chemicals

U2 - 10.3389/fenrg.2024.1483914

DO - 10.3389/fenrg.2024.1483914

M3 - Article

SN - 2296-598X

VL - 12

JO - Frontiers in Energy Research

JF - Frontiers in Energy Research

ER -

Addressing Challenges for Operating Electrochemical Solar Fuels Technologies Under Variable and Diurnal Conditions

Abstract

NLR Publication Number

Keywords

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