Stability of radical-functionalized gold surfaces by self-assembly and on-surface chemistry

We have investigated the radical functionalization of gold surfaces with a derivative of the perchlorotriphenylmethyl (PTM) radical using two methods: by chemisorption from the radical solution and by on-surface chemical derivation from a precursor. We have investigated the obtained self-assembled m...

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Published inChemical science (Cambridge) Vol. 11; no. 34; pp. 9162 - 9172
Main Authors Junghoefer, Tobias, Nowik-Boltyk, Ewa Malgorzata, de Sousa, J. Alejandro, Giangrisostomi, Erika, Ovsyannikov, Ruslan, Chassé, Thomas, Veciana, Jaume, Mas-Torrent, Marta, Rovira, Concepció, Crivillers, Núria, Casu, Maria Benedetta
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 13.08.2020
The Royal Society of Chemistry
Subjects
Chemisorption
Chemistry
Exposure
Gold
Interface stability
Monolayers
Photoelectric emission
Photoelectrons
Self-assembled monolayers
Self-assembly
Spectra
Stability analysis
Surface stability
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Abstract We have investigated the radical functionalization of gold surfaces with a derivative of the perchlorotriphenylmethyl (PTM) radical using two methods: by chemisorption from the radical solution and by on-surface chemical derivation from a precursor. We have investigated the obtained self-assembled monolayers by photon-energy dependent X-ray photoelectron spectroscopy. Our results show that the molecules were successfully anchored on the surfaces. We have used a robust method that can be applied to a variety of materials to assess the stability of the functionalized interface. The monolayers are characterized by air and X-ray beam stability unprecedented for films of organic radicals. Over very long X-ray beam exposure we observed a dynamic nature of the radical-Au complex. The results clearly indicate that (mono)layers of PTM radical derivatives have the necessary stability to withstand device applications. We have investigated the radical functionalization of gold with a derivative of the perchlorotriphenylmethyl radical using two methods: by chemisorption from the radical solution and by on surface chemical derivation from a precursor.
AbstractList We have investigated the radical functionalization of gold surfaces with a derivative of the perchlorotriphenylmethyl (PTM) radical using two methods: by chemisorption from the radical solution and by on-surface chemical derivation from a precursor. We have investigated the obtained self-assembled monolayers by photon-energy dependent X-ray photoelectron spectroscopy. Our results show that the molecules were successfully anchored on the surfaces. We have used a robust method that can be applied to a variety of materials to assess the stability of the functionalized interface. The monolayers are characterized by air and X-ray beam stability unprecedented for films of organic radicals. Over very long X-ray beam exposure we observed a dynamic nature of the radical-Au complex. The results clearly indicate that (mono)layers of PTM radical derivatives have the necessary stability to withstand device applications.
We have investigated the radical functionalization of gold surfaces with a derivative of the perchlorotriphenylmethyl (PTM) radical using two methods: by chemisorption from the radical solution and by on-surface chemical derivation from a precursor. We have investigated the obtained self-assembled monolayers by photon-energy dependent X-ray photoelectron spectroscopy. Our results show that the molecules were successfully anchored on the surfaces. We have used a robust method that can be applied to a variety of materials to assess the stability of the functionalized interface. The monolayers are characterized by air and X-ray beam stability unprecedented for films of organic radicals. Over very long X-ray beam exposure we observed a dynamic nature of the radical–Au complex. The results clearly indicate that (mono)layers of PTM radical derivatives have the necessary stability to withstand device applications. We have investigated the radical functionalization of gold with a derivative of the perchlorotriphenylmethyl radical using two methods: by chemisorption from the radical solution and by on surface chemical derivation from a precursor.
We have investigated the radical functionalization of gold surfaces with a derivative of the perchlorotriphenylmethyl (PTM) radical using two methods: by chemisorption from the radical solution and by on-surface chemical derivation from a precursor. We have investigated the obtained self-assembled monolayers by photon-energy dependent X-ray photoelectron spectroscopy. Our results show that the molecules were successfully anchored on the surfaces. We have used a robust method that can be applied to a variety of materials to assess the stability of the functionalized interface. The monolayers are characterized by air and X-ray beam stability unprecedented for films of organic radicals. Over very long X-ray beam exposure we observed a dynamic nature of the radical-Au complex. The results clearly indicate that (mono)layers of PTM radical derivatives have the necessary stability to withstand device applications.We have investigated the radical functionalization of gold surfaces with a derivative of the perchlorotriphenylmethyl (PTM) radical using two methods: by chemisorption from the radical solution and by on-surface chemical derivation from a precursor. We have investigated the obtained self-assembled monolayers by photon-energy dependent X-ray photoelectron spectroscopy. Our results show that the molecules were successfully anchored on the surfaces. We have used a robust method that can be applied to a variety of materials to assess the stability of the functionalized interface. The monolayers are characterized by air and X-ray beam stability unprecedented for films of organic radicals. Over very long X-ray beam exposure we observed a dynamic nature of the radical-Au complex. The results clearly indicate that (mono)layers of PTM radical derivatives have the necessary stability to withstand device applications.
Author Junghoefer, Tobias
Giangrisostomi, Erika
Mas-Torrent, Marta
Crivillers, Núria
Rovira, Concepció
Chassé, Thomas
Veciana, Jaume
Casu, Maria Benedetta
Nowik-Boltyk, Ewa Malgorzata
de Sousa, J. Alejandro
Ovsyannikov, Ruslan
AuthorAffiliation Institute of Physical and Theoretical Chemistry
Facultad de Ciencias
University of Tübingen
Universidad de los Andes
Helmholtz-Zentrum Berlin für Materialien und Energie (HZB)
Networking Research Center on Bioengineering Biomaterials and Nanomedicine (CIBER-BBN)
Laboratorio de Electroquímica
Institut de Ciència de Materials de Barcelona (ICMAB-CSIC)
Departamento de Química
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– name: Networking Research Center on Bioengineering Biomaterials and Nanomedicine (CIBER-BBN)
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Notes Electronic supplementary information (ESI) available: Survey spectra of SAM2A and fit results for the photoemission lines in the SAM2A C 1s spectra. SAM1 survey, stoichiometric analysis, and fit results for the photoemission lines in the SAM1 C 1s spectra. C 1s core level spectra at 460 and 640 eV. Fit results for SAM2 and SAM4 at 460 eV. Fit results for SAM2 and SAM4 at 640 eV. Electrochemical measurements, stability under air exposure, and stability under X-ray beam exposure. See DOI
10.1039/d0sc03399e
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These authors contributed equally.
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Snippet We have investigated the radical functionalization of gold surfaces with a derivative of the perchlorotriphenylmethyl (PTM) radical using two methods: by...
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SubjectTerms Chemisorption
Chemistry
Exposure
Gold
Interface stability
Monolayers
Photoelectric emission
Photoelectrons
Self-assembled monolayers
Self-assembly
Spectra
Stability analysis
Surface stability
Title Stability of radical-functionalized gold surfaces by self-assembly and on-surface chemistry
URI https://www.ncbi.nlm.nih.gov/pubmed/34123165
https://www.proquest.com/docview/2439352302
https://www.proquest.com/docview/2540720567/abstract/
https://pubmed.ncbi.nlm.nih.gov/PMC8163401
Volume 11
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