Publication:
DFT studies for ligand modification and proton spillover zeolite supported Rh(CO)2 complex

dc.contributor.coauthorAkgul, Deniz
dc.contributor.coauthorBilgin, Halil
dc.contributor.coauthorZhao, Yuxin
dc.contributor.coauthorAviyente, Viktorya
dc.contributor.departmentDepartment of Chemical and Biological Engineering
dc.contributor.departmentKUHyTech (Koç University Hydrogen Technologies Center)
dc.contributor.kuauthorUzun, Alper
dc.contributor.schoolcollegeinstituteResearch Center
dc.contributor.schoolcollegeinstituteCollege of Engineering
dc.date.accessioned2026-07-02T07:02:42Z
dc.date.available2026-03-27
dc.date.issued2026
dc.description.abstractIn zeolites, the acidic protons are known to migrate across the catalytic framework, and this proton mobility can influence the reactivity of the metal centers anchored within the structure as well. In this study, we employed density functional theory (DFT) calculations to investigate the effects of proton reverse spillover on the ligandexchange mechanisms of atomically dispersed Rh(CO)2 complexes supported on HY zeolite. Particular emphasis was placed on the role of the reverse proton spillover in facilitating the exchange of CO ligands with gas-phase acetylene. The free energy activation barrier (Delta G/=) for proton reverse spillover from the zeolite surface to the Rh center in Rh(CO)2/zeolite is relatively high (19.4 kcal/mol). As acetylene coordinates to the metal, however, the barrier decreases significantly (9.3 kcal/mol), indicating that coordination of C2H2 to Rh promotes proton transfer. Once CO dissociation occurs to give Rh(CO)(C2H2)/zeolite, reverse proton spillover from the surface becomes less favorable, with a barrier of 26.7 kcal/mol. Finally, for the fully substituted Rh(C2H2)2 species, reverse proton migration from the surface to the metal is essentially prohibited due to the very high barrier (44.4 kcal/mol). These results highlight the strong coupling between ligand exchange and proton mobility in zeolitesupported Rh complexes, underscoring how the local coordination environment dynamically tunes the feasibility of proton transfer.
dc.description.fulltextNo
dc.description.harvestedfromManual
dc.description.indexedbyWOS
dc.description.indexedbyScopus
dc.description.publisherscopeInternational
dc.description.readpublishN/A
dc.description.sponsoredbyTubitakEuTÜBİTAK
dc.description.sponsorshipThe authors acknowledge the National Center for High Performance Computing of Turkey (UHEM) (Grant Number: 1006502019) , TUBITAK ULAKBIM, High Performance and Grid Computing Center (TRUBA resources) for providing HPC resources that have contributed to the research results reported within this paper. The experimental work at Koc University was supported by Koc University TUPRAS Energy Center (KUTEM) . D. A. thanks to the Scientific and Technological Research Council of Turkiye (TUBITAK) 2219 Program.
dc.description.versionPublished Version
dc.identifier.WoSQuartileQ2
dc.identifier.doi10.1016/j.mcat.2026.115780
dc.identifier.embargoNo
dc.identifier.issn2468-8231
dc.identifier.scopus2-s2.0-105029366849
dc.identifier.urihttp://dx.doi.org/10.1016/j.mcat.2026.115780
dc.identifier.urihttps://hdl.handle.net/20.500.14288/32808
dc.identifier.volume593
dc.identifier.wos001688681400001
dc.keywordsDFT
dc.keywordsHY-zeolite
dc.keywordsModeling
dc.keywordsProton spill-over
dc.keywordsLigand exchange
dc.languageeng
dc.publisherElsevier
dc.relation.affiliationKoç University
dc.relation.collectionKoç University Institutional Repository
dc.relation.ispartofMolecular Catalysis
dc.relation.openaccessN/A
dc.rightsN/A
dc.rights.uriN/A
dc.subjectChemistry
dc.titleDFT studies for ligand modification and proton spillover zeolite supported Rh(CO)2 complex
dc.typeJournal Article
dspace.entity.typePublication
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