2026-02-11
Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis
Publication
Publication
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.
| Additional Metadata | |
|---|---|
| ACS | |
| doi.org/10.1021/acscatal.5c07014 | |
| ACS Catal. | |
| Organisation | 3D Photovoltaics |
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Monai, M., Albrecht, W., Alkemper, A., Artrith, N., Baldi, A., Beck, A., … Askes, S. (2026). Grand Challenges and Opportunities in Stimulated Dynamic and Resonant Catalysis. ACS Catal.. doi:10.1021/acscatal.5c07014 |
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