Unimolecular and bimolecular formic acid decomposition routes on dispersed Cu nanoparticles
Abstract
The elementary steps and site requirements in formic acid (HCOOH) dehydrogenation on Cu surfaces remain of keen interest because formate species act as intermediates or spectators in methanol synthesis and water–gas shift reactions. Steady-state and transient kinetic data, isotopic effects, infrared spectra during catalytic and stoichiometric reactions, and theoretical treatments based on density functional theory (DFT) provide evidence for bimolecular reactions, in which saturated bidentate formate (*HCOO*) adlayers, present at 0.25 ML (0.25 *HCOO* per surface Cu atom), react with undissociated species (HCOOH$$^\square$$) bound at interstices within formate adlayers ($$^\square$$) to form H-bonded bimolecular HCOOH$$^\square$$-*HCOO* adducts. The co-existence of vicinal HCOOH$$^\square$$ and *HCOO* moieties is evident from antisymmetric infrared bands for *HCOO* that become stronger as a result of their H-bonding that perturbs the induced dipole moment of *HCOO* upon vibration, consistent with DFT-derived vibrational frequencies and intensities for such perturbed species. The *HCOO* moiety in this complex undergoes C-H activation via a transition state that is preferentially stabilized through H-bonding with the vicinal HCOOH$$^\square$$ relative to its *HCOO* precursor. DFT-derived HCOOH dehydrogenation activation barriers and those determined from the evolution of CO2 from pre-adsorbed *HCOO* species are about 10 kJ mol-1 smaller in the presence of gaseous HCOOH reactants (because of HCOOH$$^\square$$-*HCOO* interactions) than those for the unimolecular decomposition of bound *HCOO* species. Such bimolecular routes are consistent with measured effects of HCOOH, H2, and CO pressures and of H/D isotopic substitution on dehydrogenation turnover rates and represent the predominant channel for the formation of CO2 and H2 during catalytic HCOOH dehydrogenation on Cu nanoparticles. A saturated *HCOO* adlayer that retains binding interstices and the presence of HCOOH(g) enable a sequence of elementary steps unavailable for *HCOO* species, thus circumventing unassisted unimolecular routes that exhibit higher activation barriers.
- Authors:
-
- Univ. of California, Berkeley, CA (United States); Univ. of Minnesota, Minneapolis, MN (United States)
- Univ. of California, Berkeley, CA (United States)
- Univ. of California, Berkeley, CA (United States); Colorado School of Mines, Golden, CO (United States)
- Publication Date:
- Research Org.:
- Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States). National Energy Research Scientific Computing Center (NERSC)
- Sponsoring Org.:
- USDOE Office of Science (SC), Basic Energy Sciences (BES). Scientific User Facilities (SUF)
- OSTI Identifier:
- 1981653
- Grant/Contract Number:
- AC02-05CH11231; AC05-76RL01830
- Resource Type:
- Accepted Manuscript
- Journal Name:
- Journal of Catalysis
- Additional Journal Information:
- Journal Volume: 404; Journal Issue: C; Journal ID: ISSN 0021-9517
- Publisher:
- Elsevier
- Country of Publication:
- United States
- Language:
- English
- Subject:
- 37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY; Chemistry; Engineering; Formic acid; Dehydrogenation; Copper; Density functional theory; Kinetic analysis
Citation Formats
Lin, Ting Chun, De La Torre, Unai, Hejazi, Ava, Kwon, Stephanie, and Iglesia, Enrique. Unimolecular and bimolecular formic acid decomposition routes on dispersed Cu nanoparticles. United States: N. p., 2021.
Web. doi:10.1016/j.jcat.2021.08.049.
Lin, Ting Chun, De La Torre, Unai, Hejazi, Ava, Kwon, Stephanie, & Iglesia, Enrique. Unimolecular and bimolecular formic acid decomposition routes on dispersed Cu nanoparticles. United States. https://doi.org/10.1016/j.jcat.2021.08.049
Lin, Ting Chun, De La Torre, Unai, Hejazi, Ava, Kwon, Stephanie, and Iglesia, Enrique. Mon .
"Unimolecular and bimolecular formic acid decomposition routes on dispersed Cu nanoparticles". United States. https://doi.org/10.1016/j.jcat.2021.08.049. https://www.osti.gov/servlets/purl/1981653.
@article{osti_1981653,
title = {Unimolecular and bimolecular formic acid decomposition routes on dispersed Cu nanoparticles},
author = {Lin, Ting Chun and De La Torre, Unai and Hejazi, Ava and Kwon, Stephanie and Iglesia, Enrique},
abstractNote = {The elementary steps and site requirements in formic acid (HCOOH) dehydrogenation on Cu surfaces remain of keen interest because formate species act as intermediates or spectators in methanol synthesis and water–gas shift reactions. Steady-state and transient kinetic data, isotopic effects, infrared spectra during catalytic and stoichiometric reactions, and theoretical treatments based on density functional theory (DFT) provide evidence for bimolecular reactions, in which saturated bidentate formate (*HCOO*) adlayers, present at 0.25 ML (0.25 *HCOO* per surface Cu atom), react with undissociated species (HCOOH$^\square$) bound at interstices within formate adlayers ($^\square$) to form H-bonded bimolecular HCOOH$^\square$-*HCOO* adducts. The co-existence of vicinal HCOOH$^\square$ and *HCOO* moieties is evident from antisymmetric infrared bands for *HCOO* that become stronger as a result of their H-bonding that perturbs the induced dipole moment of *HCOO* upon vibration, consistent with DFT-derived vibrational frequencies and intensities for such perturbed species. The *HCOO* moiety in this complex undergoes C-H activation via a transition state that is preferentially stabilized through H-bonding with the vicinal HCOOH$^\square$ relative to its *HCOO* precursor. DFT-derived HCOOH dehydrogenation activation barriers and those determined from the evolution of CO2 from pre-adsorbed *HCOO* species are about 10 kJ mol-1 smaller in the presence of gaseous HCOOH reactants (because of HCOOH$^\square$-*HCOO* interactions) than those for the unimolecular decomposition of bound *HCOO* species. Such bimolecular routes are consistent with measured effects of HCOOH, H2, and CO pressures and of H/D isotopic substitution on dehydrogenation turnover rates and represent the predominant channel for the formation of CO2 and H2 during catalytic HCOOH dehydrogenation on Cu nanoparticles. A saturated *HCOO* adlayer that retains binding interstices and the presence of HCOOH(g) enable a sequence of elementary steps unavailable for *HCOO* species, thus circumventing unassisted unimolecular routes that exhibit higher activation barriers.},
doi = {10.1016/j.jcat.2021.08.049},
journal = {Journal of Catalysis},
number = C,
volume = 404,
place = {United States},
year = {Mon Sep 06 00:00:00 EDT 2021},
month = {Mon Sep 06 00:00:00 EDT 2021}
}
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