Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis

Matteo Monai; Wiebke Albrecht; Achim Alkemper; Nongnuch Artrith; Andrea Baldi; Arik Beck; Ryan T. Berry; Ettore Bianco; Floor A. Brzesowsky; Qi Dong; Jimmy A. Faria Albanese; Renee R. Frontiera; Elaina Galvin; Erik C. Garnett; Nick Gerrits; Marek Grzelczak; Marc Herzog; Franziska Hess; Alexander A. Kolganov; Wouter Koopman; Nikolay Kosinov; Sarah Lander; Enrico Lepre; D. Nicolette Maaskant; Guobin Miao; Aadesh Mohan Naik; Tzia Ming Onn; Andrew A. Peterson; Diana Piankova; Evgeny A. Pidko; Korawich Trangwachirachai; Floris van den Bosch; Di Xu; Begum Yilmaz; Johannes Zeininger; Esther Alarcón Lladó; Jörg Meyer; Paul J. Dauenhauer; Sven H.C. Askes

doi:10.1021/acscatal.5c07014

Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis

Matteo Monai^*
, Wiebke Albrecht
, Achim Alkemper
, Nongnuch Artrith
, Andrea Baldi
, Arik Beck
, Ryan T. Berry
, Ettore Bianco
, Floor A. Brzesowsky
, Qi Dong
, Jimmy A. Faria Albanese
, Renee R. Frontiera
, Elaina Galvin
, Erik C. Garnett
, Nick Gerrits
, Marek Grzelczak
, Marc Herzog
, Franziska Hess
, Alexander A. Kolganov
, Wouter Koopman

Nikolay Kosinov, Sarah Lander, Enrico Lepre, D. Nicolette Maaskant, Guobin Miao, Aadesh Mohan Naik, Tzia Ming Onn, Andrew A. Peterson, Diana Piankova, Evgeny A. Pidko, Korawich Trangwachirachai, Floris van den Bosch, Di Xu, Begum Yilmaz, Johannes Zeininger, Esther Alarcón Lladó^*, Jörg Meyer^*, Paul J. Dauenhauer^*, Sven H.C. Askes^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

Abstract

Traditional heterogeneous catalysis is constrained by kinetic and thermodynamic limits, such as the Sabatier principle and reaction equilibrium. Dynamic and resonant catalysts hold promise to overcome these limitations by actively oscillating a catalyst’s physical or electronic structure at the time scale of the catalytic cycle, allowing programmable control over reaction pathways, and leading to improved rate and selectivity. External stimuli such as temperature swing, mechanical strain, electric charge, and light can perturb catalyst surfaces in different ways, altering adsorbate coverage, binding energies, and transition states beyond what steady-state catalysis allows. This work surveys the current state of dynamic catalysis, introduces the concept of “stimulando” characterization for observing transient dynamics, and outlines key modeling, mechanistic, and benchmarking strategies to advance the field toward improved chemical transformation.

Original language	English
Pages (from-to)	4077-4112
Number of pages	36
Journal	ACS Catalysis
Volume	16
Issue number	5
DOIs	https://doi.org/10.1021/acscatal.5c07014
Publication status	Published - 6 Mar 2026

Bibliographical note

Publisher Copyright:
© 2026 The Authors. Published by American Chemical Society

Keywords

dynamic catalysis
electric charge
light
resonant catalysis
stimulando characterization
stimulated catalysis
strain
temperature swing

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Cite this

Monai, M., Albrecht, W., Alkemper, A., Artrith, N., Baldi, A., Beck, A., Berry, R. T., Bianco, E., Brzesowsky, F. A., Dong, Q., Faria Albanese, J. A., Frontiera, R. R., Galvin, E., Garnett, E. C., Gerrits, N., Grzelczak, M., Herzog, M., Hess, F., Kolganov, A. A., ... Askes, S. H. C. (2026). Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis. ACS Catalysis, 16(5), 4077-4112. https://doi.org/10.1021/acscatal.5c07014

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title = "Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis",

abstract = "Traditional heterogeneous catalysis is constrained by kinetic and thermodynamic limits, such as the Sabatier principle and reaction equilibrium. Dynamic and resonant catalysts hold promise to overcome these limitations by actively oscillating a catalyst{\textquoteright}s physical or electronic structure at the time scale of the catalytic cycle, allowing programmable control over reaction pathways, and leading to improved rate and selectivity. External stimuli such as temperature swing, mechanical strain, electric charge, and light can perturb catalyst surfaces in different ways, altering adsorbate coverage, binding energies, and transition states beyond what steady-state catalysis allows. This work surveys the current state of dynamic catalysis, introduces the concept of “stimulando” characterization for observing transient dynamics, and outlines key modeling, mechanistic, and benchmarking strategies to advance the field toward improved chemical transformation.",

keywords = "dynamic catalysis, electric charge, light, resonant catalysis, stimulando characterization, stimulated catalysis, strain, temperature swing",

author = "Matteo Monai and Wiebke Albrecht and Achim Alkemper and Nongnuch Artrith and Andrea Baldi and Arik Beck and Berry, \{Ryan T.\} and Ettore Bianco and Brzesowsky, \{Floor A.\} and Qi Dong and \{Faria Albanese\}, \{Jimmy A.\} and Frontiera, \{Renee R.\} and Elaina Galvin and Garnett, \{Erik C.\} and Nick Gerrits and Marek Grzelczak and Marc Herzog and Franziska Hess and Kolganov, \{Alexander A.\} and Wouter Koopman and Nikolay Kosinov and Sarah Lander and Enrico Lepre and Maaskant, \{D. Nicolette\} and Guobin Miao and Naik, \{Aadesh Mohan\} and Onn, \{Tzia Ming\} and Peterson, \{Andrew A.\} and Diana Piankova and Pidko, \{Evgeny A.\} and Korawich Trangwachirachai and \{van den Bosch\}, Floris and Di Xu and Begum Yilmaz and Johannes Zeininger and \{Alarc{\'o}n Llad{\'o}\}, Esther and J{\"o}rg Meyer and Dauenhauer, \{Paul J.\} and Askes, \{Sven H.C.\}",

note = "Publisher Copyright: {\textcopyright} 2026 The Authors. Published by American Chemical Society",

year = "2026",

month = mar,

day = "6",

doi = "10.1021/acscatal.5c07014",

language = "English",

volume = "16",

pages = "4077--4112",

journal = "ACS Catalysis",

issn = "2155-5435",

publisher = "American Chemical Society",

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Monai, M, Albrecht, W, Alkemper, A, Artrith, N, Baldi, A, Beck, A, Berry, RT, Bianco, E, Brzesowsky, FA, Dong, Q, Faria Albanese, JA, Frontiera, RR, Galvin, E, Garnett, EC, Gerrits, N, Grzelczak, M, Herzog, M, Hess, F, Kolganov, AA, Koopman, W, Kosinov, N, Lander, S, Lepre, E, Maaskant, DN, Miao, G, Naik, AM, Onn, TM, Peterson, AA, Piankova, D, Pidko, EA, Trangwachirachai, K, van den Bosch, F, Xu, D, Yilmaz, B, Zeininger, J, Alarcón Lladó, E, Meyer, J, Dauenhauer, PJ & Askes, SHC 2026, 'Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis', ACS Catalysis, vol. 16, no. 5, pp. 4077-4112. https://doi.org/10.1021/acscatal.5c07014

TY - JOUR

T1 - Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis

AU - Monai, Matteo

AU - Albrecht, Wiebke

AU - Alkemper, Achim

AU - Artrith, Nongnuch

AU - Baldi, Andrea

AU - Beck, Arik

AU - Berry, Ryan T.

AU - Bianco, Ettore

AU - Brzesowsky, Floor A.

AU - Dong, Qi

AU - Faria Albanese, Jimmy A.

AU - Frontiera, Renee R.

AU - Galvin, Elaina

AU - Garnett, Erik C.

AU - Gerrits, Nick

AU - Grzelczak, Marek

AU - Herzog, Marc

AU - Hess, Franziska

AU - Kolganov, Alexander A.

AU - Koopman, Wouter

AU - Kosinov, Nikolay

AU - Lander, Sarah

AU - Lepre, Enrico

AU - Maaskant, D. Nicolette

AU - Miao, Guobin

AU - Naik, Aadesh Mohan

AU - Onn, Tzia Ming

AU - Peterson, Andrew A.

AU - Piankova, Diana

AU - Pidko, Evgeny A.

AU - Trangwachirachai, Korawich

AU - van den Bosch, Floris

AU - Xu, Di

AU - Yilmaz, Begum

AU - Zeininger, Johannes

AU - Alarcón Lladó, Esther

AU - Meyer, Jörg

AU - Dauenhauer, Paul J.

AU - Askes, Sven H.C.

PY - 2026/3/6

Y1 - 2026/3/6

N2 - Traditional heterogeneous catalysis is constrained by kinetic and thermodynamic limits, such as the Sabatier principle and reaction equilibrium. Dynamic and resonant catalysts hold promise to overcome these limitations by actively oscillating a catalyst’s physical or electronic structure at the time scale of the catalytic cycle, allowing programmable control over reaction pathways, and leading to improved rate and selectivity. External stimuli such as temperature swing, mechanical strain, electric charge, and light can perturb catalyst surfaces in different ways, altering adsorbate coverage, binding energies, and transition states beyond what steady-state catalysis allows. This work surveys the current state of dynamic catalysis, introduces the concept of “stimulando” characterization for observing transient dynamics, and outlines key modeling, mechanistic, and benchmarking strategies to advance the field toward improved chemical transformation.

AB - Traditional heterogeneous catalysis is constrained by kinetic and thermodynamic limits, such as the Sabatier principle and reaction equilibrium. Dynamic and resonant catalysts hold promise to overcome these limitations by actively oscillating a catalyst’s physical or electronic structure at the time scale of the catalytic cycle, allowing programmable control over reaction pathways, and leading to improved rate and selectivity. External stimuli such as temperature swing, mechanical strain, electric charge, and light can perturb catalyst surfaces in different ways, altering adsorbate coverage, binding energies, and transition states beyond what steady-state catalysis allows. This work surveys the current state of dynamic catalysis, introduces the concept of “stimulando” characterization for observing transient dynamics, and outlines key modeling, mechanistic, and benchmarking strategies to advance the field toward improved chemical transformation.

KW - dynamic catalysis

KW - electric charge

KW - light

KW - resonant catalysis

KW - stimulando characterization

KW - stimulated catalysis

KW - strain

KW - temperature swing

UR - https://www.scopus.com/pages/publications/105031876321

U2 - 10.1021/acscatal.5c07014

DO - 10.1021/acscatal.5c07014

M3 - Review article

AN - SCOPUS:105031876321

SN - 2155-5435

VL - 16

SP - 4077

EP - 4112

JO - ACS Catalysis

JF - ACS Catalysis

IS - 5

ER -

Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis

Abstract

Bibliographical note

Keywords

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