Gerischer Electrochemistry Today

Justin Sambur; Aaron Kaufman; Andres Montoya-Castillo; Anna Kundman; Arthur Nozik; Ashlyn DesCarpentrie; Asmita Jana; Austin Tews; Avishek Banik; Benjamin Martindale; Brian DeBruine; Bruce Parkinson; C. Frisbie; Camilla Tossi; Claire Hallock; Daniel Esposito; Danielle Lustig; David Ingram; Daye Seo; Devan Solanki; Dunwei Wang; Erin Ratcliff; Frances Houle; Francesca Toma; Gaohua Zhu; Gary Moore; Gerald Meyer; Honghao Liu; Humayra Begum; Jacob Schneidewind; James Cahoon; James Mayer; Jao Van De Lagemaat; Jeremy Brinker; Jillian Dempsey; Jocelyn Mendes; Jonathan Diederich; Judy Hart; Katharina Brinkert; Krishnan Rajeshwar; Kyoung-Shin Choi; Louise Berben; Marco Salvi; Mark Spitler; Michael Rose; Nathan Lewis; Nathaniel Gomez; Oshnik Maurya; Patrick Aghadiuno; Prashant Kamat; R. Evans; R. Evans; Rafael Almaraz; Renato Sampaio; Robert Coridan; Roel van de Krol; Sa Suo; Samantha Magpantay; Sanghyun Bae; Scott Cushing; Shane Ardo; Shannon Boettcher; Shu Hu; Stephen Maldonado; Tianying Liu; Tanja Cuk; Thomas Hannappel; Thomas Sayer; Tim Arthur; Todd Deutsch; Verena Streibel; William Stinson; Wolfram Jaegermann; Yogesh Surendranath; Zetian Mi; Zhengwei Ye

doi:10.1021/acsenergylett.5c02966

Gerischer Electrochemistry Today

Justin Sambur
, Aaron Kaufman
, Andres Montoya-Castillo
, Anna Kundman
, Arthur Nozik
, Ashlyn DesCarpentrie
, Asmita Jana
, Austin Tews
, Avishek Banik
, Benjamin Martindale
, Brian DeBruine
, Bruce Parkinson
, C. Frisbie
, Camilla Tossi
, Claire Hallock
, Daniel Esposito
, Danielle Lustig
, David Ingram
, Daye Seo
, Devan Solanki

Dunwei Wang, Erin Ratcliff, Frances Houle, Francesca Toma, Gaohua Zhu, Gary Moore, Gerald Meyer, Honghao Liu, Humayra Begum, Jacob Schneidewind, James Cahoon, James Mayer, Jao Van De Lagemaat, Jeremy Brinker, Jillian Dempsey, Jocelyn Mendes, Jonathan Diederich, Judy Hart, Katharina Brinkert, Krishnan Rajeshwar, Kyoung-Shin Choi, Louise Berben, Marco Salvi, Mark Spitler, Michael Rose, Nathan Lewis, Nathaniel Gomez, Oshnik Maurya, Patrick Aghadiuno, Prashant Kamat, R. Evans, R. Evans, Rafael Almaraz, Renato Sampaio, Robert Coridan, Roel van de Krol, Sa Suo, Samantha Magpantay, Sanghyun Bae, Scott Cushing, Shane Ardo, Shannon Boettcher, Shu Hu, Stephen Maldonado, Tianying Liu, Tanja Cuk, Thomas Hannappel, Thomas Sayer, Tim Arthur, Todd Deutsch, Verena Streibel, William Stinson, Wolfram Jaegermann, Yogesh Surendranath, Zetian Mi, Zhengwei Ye

Chemistry and Nanoscience

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

Abstract

Semiconductor photoelectrochemistry is a dynamic and interdisciplinary field at the forefront of research in solar fuels, energy conversion, and catalysis. This Perspective captures the collective insights from the second Gerischer Electrochemistry Today Symposium, held at Colorado State University in Fort Collins, CO, in August 2024, which convened leading researchers, early-career scientists, and industry partners to define the critical next steps for the field. Through interactive sessions, technical talks, panel discussions, and training initiatives-including a Semiconductor Electrochemistry Bootcamp-the symposium emphasized three pillars of advancement: (i) facilitating the exchange of new ideas in semiconductor electrochemistry and charge separation; (ii) fostering the development of future researchers, research topics, and participation in the semiconductor workforce; and (iii) building community. This Energy Focus distills key themes from the meeting and identifies major knowledge gaps in the following areas: mechanisms of charge separation and recombination, role of defects and disorder, dynamic and operando characterization methods, interfacial chemistry and surface passivation, theoretical and modeling limitations, and standardization and benchmarking. The inclusive and collaborative structure of the symposium enabled the generation of this comprehensive report that will serve as a roadmap for fundamental and applied research in the rapidly evolving field of semiconductor electrochemistry over the next decade.

Original language	American English
Pages (from-to)	6578-6595
Number of pages	18
Journal	ACS Energy Letters
Volume	10
Issue number	12
DOIs	https://doi.org/10.1021/acsenergylett.5c02966
State	Published - 2025

NLR Publication Number

NLR/JA-5900-97052

Keywords

electrochemistry
interfaces
photonics
redox reactions
semiconductors

Access to Document

10.1021/acsenergylett.5c02966

Cite this

Sambur, J., Kaufman, A., Montoya-Castillo, A., Kundman, A., Nozik, A., DesCarpentrie, A., Jana, A., Tews, A., Banik, A., Martindale, B., DeBruine, B., Parkinson, B., Frisbie, C., Tossi, C., Hallock, C., Esposito, D., Lustig, D., Ingram, D., Seo, D., ... Ye, Z. (2025). Gerischer Electrochemistry Today. ACS Energy Letters, 10(12), 6578-6595. https://doi.org/10.1021/acsenergylett.5c02966

@article{77e44fa66e244b5985a61c37cb509353,

title = "Gerischer Electrochemistry Today",

abstract = "Semiconductor photoelectrochemistry is a dynamic and interdisciplinary field at the forefront of research in solar fuels, energy conversion, and catalysis. This Perspective captures the collective insights from the second Gerischer Electrochemistry Today Symposium, held at Colorado State University in Fort Collins, CO, in August 2024, which convened leading researchers, early-career scientists, and industry partners to define the critical next steps for the field. Through interactive sessions, technical talks, panel discussions, and training initiatives-including a Semiconductor Electrochemistry Bootcamp-the symposium emphasized three pillars of advancement: (i) facilitating the exchange of new ideas in semiconductor electrochemistry and charge separation; (ii) fostering the development of future researchers, research topics, and participation in the semiconductor workforce; and (iii) building community. This Energy Focus distills key themes from the meeting and identifies major knowledge gaps in the following areas: mechanisms of charge separation and recombination, role of defects and disorder, dynamic and operando characterization methods, interfacial chemistry and surface passivation, theoretical and modeling limitations, and standardization and benchmarking. The inclusive and collaborative structure of the symposium enabled the generation of this comprehensive report that will serve as a roadmap for fundamental and applied research in the rapidly evolving field of semiconductor electrochemistry over the next decade.",

keywords = "electrochemistry, interfaces, photonics, redox reactions, semiconductors",

author = "Justin Sambur and Aaron Kaufman and Andres Montoya-Castillo and Anna Kundman and Arthur Nozik and Ashlyn DesCarpentrie and Asmita Jana and Austin Tews and Avishek Banik and Benjamin Martindale and Brian DeBruine and Bruce Parkinson and C. Frisbie and Camilla Tossi and Claire Hallock and Daniel Esposito and Danielle Lustig and David Ingram and Daye Seo and Devan Solanki and Dunwei Wang and Erin Ratcliff and Frances Houle and Francesca Toma and Gaohua Zhu and Gary Moore and Gerald Meyer and Honghao Liu and Humayra Begum and Jacob Schneidewind and James Cahoon and James Mayer and \{Van De Lagemaat\}, Jao and Jeremy Brinker and Jillian Dempsey and Jocelyn Mendes and Jonathan Diederich and Judy Hart and Katharina Brinkert and Krishnan Rajeshwar and Kyoung-Shin Choi and Louise Berben and Marco Salvi and Mark Spitler and Michael Rose and Nathan Lewis and Nathaniel Gomez and Oshnik Maurya and Patrick Aghadiuno and Prashant Kamat and R. Evans and R. Evans and Rafael Almaraz and Renato Sampaio and Robert Coridan and \{van de Krol\}, Roel and Sa Suo and Samantha Magpantay and Sanghyun Bae and Scott Cushing and Shane Ardo and Shannon Boettcher and Shu Hu and Stephen Maldonado and Tianying Liu and Tanja Cuk and Thomas Hannappel and Thomas Sayer and Tim Arthur and Todd Deutsch and Verena Streibel and William Stinson and Wolfram Jaegermann and Yogesh Surendranath and Zetian Mi and Zhengwei Ye",

year = "2025",

doi = "10.1021/acsenergylett.5c02966",

language = "American English",

volume = "10",

pages = "6578--6595",

journal = "ACS Energy Letters",

issn = "2380-8195",

publisher = "American Chemical Society",

number = "12",

}

Sambur, J, Kaufman, A, Montoya-Castillo, A, Kundman, A, Nozik, A, DesCarpentrie, A, Jana, A, Tews, A, Banik, A, Martindale, B, DeBruine, B, Parkinson, B, Frisbie, C, Tossi, C, Hallock, C, Esposito, D, Lustig, D, Ingram, D, Seo, D, Solanki, D, Wang, D, Ratcliff, E, Houle, F, Toma, F, Zhu, G, Moore, G, Meyer, G, Liu, H, Begum, H, Schneidewind, J, Cahoon, J, Mayer, J, Van De Lagemaat, J, Brinker, J, Dempsey, J, Mendes, J, Diederich, J, Hart, J, Brinkert, K, Rajeshwar, K, Choi, K-S, Berben, L, Salvi, M, Spitler, M, Rose, M, Lewis, N, Gomez, N, Maurya, O, Aghadiuno, P, Kamat, P, Evans, R, Evans, R, Almaraz, R, Sampaio, R, Coridan, R, van de Krol, R, Suo, S, Magpantay, S, Bae, S, Cushing, S, Ardo, S, Boettcher, S, Hu, S, Maldonado, S, Liu, T, Cuk, T, Hannappel, T, Sayer, T, Arthur, T, Deutsch, T, Streibel, V, Stinson, W, Jaegermann, W, Surendranath, Y, Mi, Z & Ye, Z 2025, 'Gerischer Electrochemistry Today', ACS Energy Letters, vol. 10, no. 12, pp. 6578-6595. https://doi.org/10.1021/acsenergylett.5c02966

TY - JOUR

T1 - Gerischer Electrochemistry Today

AU - Sambur, Justin

AU - Kaufman, Aaron

AU - Montoya-Castillo, Andres

AU - Kundman, Anna

AU - Nozik, Arthur

AU - DesCarpentrie, Ashlyn

AU - Jana, Asmita

AU - Tews, Austin

AU - Banik, Avishek

AU - Martindale, Benjamin

AU - DeBruine, Brian

AU - Parkinson, Bruce

AU - Frisbie, C.

AU - Tossi, Camilla

AU - Hallock, Claire

AU - Esposito, Daniel

AU - Lustig, Danielle

AU - Ingram, David

AU - Seo, Daye

AU - Solanki, Devan

AU - Wang, Dunwei

AU - Ratcliff, Erin

AU - Houle, Frances

AU - Toma, Francesca

AU - Zhu, Gaohua

AU - Moore, Gary

AU - Meyer, Gerald

AU - Liu, Honghao

AU - Begum, Humayra

AU - Schneidewind, Jacob

AU - Cahoon, James

AU - Mayer, James

AU - Van De Lagemaat, Jao

AU - Brinker, Jeremy

AU - Dempsey, Jillian

AU - Mendes, Jocelyn

AU - Diederich, Jonathan

AU - Hart, Judy

AU - Brinkert, Katharina

AU - Rajeshwar, Krishnan

AU - Choi, Kyoung-Shin

AU - Berben, Louise

AU - Salvi, Marco

AU - Spitler, Mark

AU - Rose, Michael

AU - Lewis, Nathan

AU - Gomez, Nathaniel

AU - Maurya, Oshnik

AU - Aghadiuno, Patrick

AU - Kamat, Prashant

AU - Evans, R.

AU - Almaraz, Rafael

AU - Sampaio, Renato

AU - Coridan, Robert

AU - van de Krol, Roel

AU - Suo, Sa

AU - Magpantay, Samantha

AU - Bae, Sanghyun

AU - Cushing, Scott

AU - Ardo, Shane

AU - Boettcher, Shannon

AU - Hu, Shu

AU - Maldonado, Stephen

AU - Liu, Tianying

AU - Cuk, Tanja

AU - Hannappel, Thomas

AU - Sayer, Thomas

AU - Arthur, Tim

AU - Deutsch, Todd

AU - Streibel, Verena

AU - Stinson, William

AU - Jaegermann, Wolfram

AU - Surendranath, Yogesh

AU - Mi, Zetian

AU - Ye, Zhengwei

PY - 2025

Y1 - 2025

N2 - Semiconductor photoelectrochemistry is a dynamic and interdisciplinary field at the forefront of research in solar fuels, energy conversion, and catalysis. This Perspective captures the collective insights from the second Gerischer Electrochemistry Today Symposium, held at Colorado State University in Fort Collins, CO, in August 2024, which convened leading researchers, early-career scientists, and industry partners to define the critical next steps for the field. Through interactive sessions, technical talks, panel discussions, and training initiatives-including a Semiconductor Electrochemistry Bootcamp-the symposium emphasized three pillars of advancement: (i) facilitating the exchange of new ideas in semiconductor electrochemistry and charge separation; (ii) fostering the development of future researchers, research topics, and participation in the semiconductor workforce; and (iii) building community. This Energy Focus distills key themes from the meeting and identifies major knowledge gaps in the following areas: mechanisms of charge separation and recombination, role of defects and disorder, dynamic and operando characterization methods, interfacial chemistry and surface passivation, theoretical and modeling limitations, and standardization and benchmarking. The inclusive and collaborative structure of the symposium enabled the generation of this comprehensive report that will serve as a roadmap for fundamental and applied research in the rapidly evolving field of semiconductor electrochemistry over the next decade.

AB - Semiconductor photoelectrochemistry is a dynamic and interdisciplinary field at the forefront of research in solar fuels, energy conversion, and catalysis. This Perspective captures the collective insights from the second Gerischer Electrochemistry Today Symposium, held at Colorado State University in Fort Collins, CO, in August 2024, which convened leading researchers, early-career scientists, and industry partners to define the critical next steps for the field. Through interactive sessions, technical talks, panel discussions, and training initiatives-including a Semiconductor Electrochemistry Bootcamp-the symposium emphasized three pillars of advancement: (i) facilitating the exchange of new ideas in semiconductor electrochemistry and charge separation; (ii) fostering the development of future researchers, research topics, and participation in the semiconductor workforce; and (iii) building community. This Energy Focus distills key themes from the meeting and identifies major knowledge gaps in the following areas: mechanisms of charge separation and recombination, role of defects and disorder, dynamic and operando characterization methods, interfacial chemistry and surface passivation, theoretical and modeling limitations, and standardization and benchmarking. The inclusive and collaborative structure of the symposium enabled the generation of this comprehensive report that will serve as a roadmap for fundamental and applied research in the rapidly evolving field of semiconductor electrochemistry over the next decade.

KW - electrochemistry

KW - interfaces

KW - photonics

KW - redox reactions

KW - semiconductors

U2 - 10.1021/acsenergylett.5c02966

DO - 10.1021/acsenergylett.5c02966

M3 - Article

SN - 2380-8195

VL - 10

SP - 6578

EP - 6595

JO - ACS Energy Letters

JF - ACS Energy Letters

IS - 12

ER -

Gerischer Electrochemistry Today

Abstract

NLR Publication Number

Keywords

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