Your search keyword '"S., Campidelli"' showing total 97 results

1. Signature of gate-tunable magnetism in graphene grafted with Pt-porphyrins

Author

Chuan Li, Katsuyoshi Komatsu, S. Bertrand, G. Clavé, S. Campidelli, A. Filoramo, S. Guéron, H. Bouchiat, Laboratoire de Physique des Solides (LPS), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Laboratoire Innovation en Chimie des Surfaces et NanoSciences (LICSEN UMR 3685), Nanosciences et Innovation pour les Matériaux, la Biomédecine et l'Energie (ex SIS2M) (NIMBE UMR 3685), Institut Rayonnement Matière de Saclay (IRAMIS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Institut Rayonnement Matière de Saclay (IRAMIS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), ANR-10-BLAN-1010,Supergraph,Effet de proximité supraconducteur dans le graphene(2010), Centre National de la Recherche Scientifique (CNRS)-Université Paris-Sud - Paris 11 (UP11), and Laboratoire Innovation en Chimie des Surfaces et NanoSciences (LICSEN)

Subjects

Magnetism, FOS: Physical sciences, 02 engineering and technology, 01 natural sciences, law.invention, Bohr magneton, Magnetization, symbols.namesake, law, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), 0103 physical sciences, Physics::Atomic and Molecular Clusters, Physics::Chemical Physics, 010306 general physics, Superconductivity, Physics, Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed matter physics, Magnetic moment, Graphene, Exchange interaction, Supercurrent, Materials Science (cond-mat.mtrl-sci), [CHIM.MATE]Chemical Sciences/Material chemistry, 021001 nanoscience & nanotechnology, symbols, 0210 nano-technology

Abstract

International audience; Inducing magnetism in graphene holds great promises, such as controlling the exchange interaction with a gate electrode, and generating exotic magnetic phases. Coating graphene with magnetic molecules or atoms has so far mostly led to decreased graphene mobility. In the present work, we show that Pt-porphyrin molecules adsorbed on graphene lead both to an enhanced mobility, and to gate-dependent magnetism. We report that porphyrins can act both as donor or acceptor molecules, depending on the initial doping of the graphene sheet. The porphyrins transfer charge and ionize around the charged impurities on graphene, and, consequently, the graphene doping is decreased and its mobility is enhanced. In addition, ionized porphyrin molecules carry a magnetic moment. Using the sensitivity of mesoscopic transport to magnetism, in particular, the superconducting proximity effect and conductance fluctuations, we explore the magnetic order induced in graphene by the interacting magnetic moments of the ionized porphyrin molecules. Among the signatures of magnetism, we find two-terminal-magnetoresistance fluctuations with an odd component, a telltale sign of time-reversal symmetry breaking at zero field, which does not exist in uncoated graphene samples. When graphene is connected to superconducting electrodes, the induced magnetism leads to a gate-voltage-dependent suppression of the supercurrent, modified magnetic interference patterns, and gate-voltage-dependent magnetic hysteresis. The magnetic signatures are greatest for long superconductor/graphene/superconductor junctions, and for samples with the highest initial doping, compatible with a greater number of ionized, and thus magnetic porphyrin molecules. Our findings suggest that long-range (of the order of the coherence length, or micrometers) magnetism is induced through graphene by the ionized porphyrins' magnetic moment. This magnetic interaction is controled by the density of carriers in graphene, a tunability that could be exploited in spintronic applications.

Published

2016

2. Spectroscopic Evidence for Photolytically Generated Radical Ion Pairs in Single Wall Carbon Nanotubes Bearing Surface-Immobilized Tetrathiafulvalenes

Author

M. Á. HERRANZ, C. EHLI, S. CAMPIDELLI, M. GUTIÉRREZ, G. L. HUG, K. OHKUBO, S. FUKUZUMI, N. MARTÍN, D. M. GULDI, PRATO, MAURIZIO, M. Á., Herranz, C., Ehli, S., Campidelli, M., Gutiérrez, G. L., Hug, K., Ohkubo, S., Fukuzumi, Prato, Maurizio, N., Martín, and D. M., Guldi

Subjects

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Published

2008

3. Facile Decoration of Functionalized Single Wall Carbon Nanotubes with Phthalocyanines via 'Click Chemistry'

Author

S. CAMPIDELLI, B. BALLESTEROS, A. FILORAMO, D. D. DÍAZ, G. D. L. TORRE, T. TORRES, G. M. A. RAHMAN, C. EHLI, D. KIESSLING, F. WERNER, D. M. GULDI, C. CIOFFI, J. P. BOURGOIN, PRATO, MAURIZIO, S., Campidelli, B., Ballestero, A., Filoramo, D. D., Díaz, G. D. L., Torre, T., Torre, G. M. A., Rahman, C., Ehli, D., Kiessling, F., Werner, D. M., Guldi, C., Cioffi, Prato, Maurizio, and J. P., Bourgoin

Subjects

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Published

2008

4. Synthesis, characterization and photophysical properties of a SWNT-phthalocyanine hybrid

Author

B. BALLESTEROS, S. CAMPIDELLI, G. DE LA TORRE, C. EHLI, D. M. GULDI, T. TORRES, PRATO, MAURIZIO, B., Ballestero, S., Campidelli, G., DE LA TORRE, C., Ehli, D. M., Guldi, Prato, Maurizio, and T., Torres

Subjects

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Published

2007

5. Carbon Nanotubes Properties and Applications

Author

S. CAMPIDELLI, PRATO, MAURIZIO, S., Campidelli, and Prato, Maurizio

Subjects

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Published

2007

6. ELECTRONICALLY INTERACTING SINGLE WALL CARBON NANOTUBE – PORPHYRIN NANOHYBRIDS

Author

G. M. A. RAHMAN, D. M. GULDI, S. CAMPIDELLI, PRATO, MAURIZIO, G. M. A., Rahman, D. M., Guldi, S., Campidelli, and Prato, Maurizio

Subjects

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Published

2006

7. Control over Electron Transfer in Tetrathiafulvalene-Modified Single-Walled Carbon Nanotubes

Author

M. . HERRANZ, N. MARTN, S. CAMPIDELLI, G. BREHM, D. M. GULDI, PRATO, MAURIZIO, Herranz, M., N., Martn, S., Campidelli, Prato, Maurizio, G., Brehm, and D. M., Guldi

Subjects

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Published

2006

8. [60]FULLERENE PYRROLIDINE-N-OXIDES

Author

P. BROUGH, C. KLUMPP, A. BIANCO, S. CAMPIDELLI, PRATO, MAURIZIO, P., Brough, C., Klumpp, A., Bianco, S., Campidelli, and Prato, Maurizio

Subjects

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Published

2006

9. LIQUID-CRYSTALLINE BIS-ADDUCTS OF [60]FULLERENE

Author

S. CAMPIDELLI, E. VZQUEZ, D. MILIC, J. LENOBLE, C. A. CASTELLANOS, G. SAROVA, D. M. GULDI, R. DESCHENAUX, PRATO, MAURIZIO, S., Campidelli, E., Vzquez, D., Milic, J., Lenoble, C. A., Castellano, G., Sarova, D. M., Guldi, R., Deschenaux, and Prato, Maurizio

Subjects

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Published

2006

10. SUPRAMOLECULAR HYBRIDS OF [60]FULLERENE AND SINGLE WALL CARBON NANOTUBES

Author

D. M. GULDI, E. MENNA, M. MAGGINI, M. MARCACCIO, D. PAOLUCCI, F. PAOLUCCI, S. CAMPIDELLI, G. M. A. RAHMAN, S. SCHERGNA, PRATO, MAURIZIO, D. M., Guldi, E., Menna, M., Maggini, M., Marcaccio, D., Paolucci, F., Paolucci, S., Campidelli, Prato, Maurizio, G. M. A., Rahman, and S., Schergna

Subjects

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Published

2006

11. DNA-Templated Pd Conductive Metallic Nanowires

Author

K. Nguyen, M. Monteverde, S. Lyonnais, S. Campidelli, J.-Ph. Bourgoin, A. Filoramo, Wolfgang Fritzsche, and Frank Bier

Subjects

Materials science, law, Transistor, Nanowire, Nanotechnology, Carbon nanotube, Self-assembly, Substrate (electronics), Nanodevice, law.invention, Nanomaterials, Macromolecule

Abstract

Because of its unique recognition properties, its size and the sub‐nanometric resolution, DNA is of particular interest for positioning and organizing nanomaterials. However, in DNA‐directed nanoelectronic it can be envisioned to use DNA not only as a positioning scaffold, but also as a support for the conducting element. To ensure this function a metallization process is necessary and among the various DNA metallization methods the Pd based ones are of particular interest for carbon nanotube transistor connections. In this field, the major drawback of the existing methods is the fast kinetics of the process which lead to a stochastic growth. Here, we present a novel approach to DNA Pd metalization where the DNA molecule is previously deposited on a dry substrate in a typical nanodevice configuration. In our approach the progressive growth of nanowires is achieved by the slow and selective precipitation of PdO, followed by a subsequent reduction step. Thanks to this strategy we fabricated homogeneous, continuous and conductive Pd nanowires on the DNA scaffolds of very thin diameter (20–25 nm).

Published

2008

12. Supramolecular Assemblies of Different Carbon Nanotubes for Photoconversion ProcessesPart of this research was supported by the US Department of Energy, the University of Trieste, EU (RTN programs “CASSIUSCLAYS” and “WONDERFULL”), MIUR (PRIN 2004, prot. 2004035502), the Deutsche Forschungsgemeinschaft (SFB 583), FCI, and the Office of Basic Energy Sciences of the U.S. Department of Energy. Supporting Information is available online from Wiley InterScience or from the author.

Author

V. Sgobba, G. M. A. Rahman, D. M. Guldi, N. Jux, S. Campidelli, and M. Prato

Published

2006

13. Adsorption of carbon nanotubes on active carbon microparticles

Author

Wei Wu, Arlette Tridon, Stéphane Campidelli, Maurizio Prato, Nikolaev Vladimir G, Shouping Li, Andrey E. Nikolaev, Alberto Bianco, E.A. Snezhkova, Veronika Sarnatskaïa, S., Li, W., Wu, S., Campidelli, V., Sarnatskaïa, Prato, Maurizio, A., Tridone, A., Nikolaev, V., Nikolaev, A., Bianco, E., Snezhkova, Immunologie et chimie thérapeutiques (ICT), Cancéropôle du Grand Est-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Electronique Moléculaire (LEM), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Institut R.E. Kavestky de Pathologie Expérimentale, Cancérologie et Radiologie, Académie Nationale des Sciences de l'Ukraine, Università degli studi di Trieste = University of Trieste, Laboratoire d'Immunologie, Facultés de médecine et de pharmacie, Physico-Technical Institute, Moscow Physico-Technical Institute, and Institut R.E. Kavetsky de Pathologie Expérimentale, Cancérologie et Radiologie

Subjects

Active carbon, Chemistry, Carbon nanofiber, [CHIM.THER]Chemical Sciences/Medicinal Chemistry, General Chemistry, Carbon nanotube, law.invention, Adsorption, Chemical engineering, law, ", medicine, General Materials Science, Activated carbon, medicine.drug

Published

2008

14. Phthalocyanine-pyrene conjugates: A powerful approach toward carbon nanotube solar cells

Author

Maurizio Prato, Daniel Kiessling, Beatriz Ballesteros, Gema de la Torre, Stéphane Campidelli, Tomás Torres, Dirk M. Guldi, Juergen Bartelmess, J., Bartelme, B., Ballestero, G., de la Torre, D., Kiessling, S., Campidelli, Prato, Maurizio, T., Torre, and D. M., Guldi

Subjects

Indoles, Bioelectric Energy Sources, Nanotechnology, Carbon nanotube, Isoindoles, Photochemistry, Biochemistry, Catalysis, Photoinduced electron transfer, law.invention, chemistry.chemical_compound, Colloid and Surface Chemistry, law, Ultrafast laser spectroscopy, Solar Energy, Thin film, Pyrenes, carbon nanotubes, Nanotubes, Carbon, Chemical modification, General Chemistry, chemistry, Phthalocyanine, Surface modification, Pyrene

Abstract

In the present work, a new family of pyrene (Py)-substituted phthalocyanines (Pcs), i.e., ZnPc-Py and H(2)Pc-Py, were designed, synthesized, and probed in light of their spectroscopic properties as well as their interactions with single-wall carbon nanotubes (SWNTs). The pyrene units provide the means for non-covalent functionalization of SWNTs via π-π interactions. Such a versatile approach ensures that the electronic properties of SWNTs are not impacted by the chemical modification of the carbon skeleton. The characterization of ZnPc-Py/SWNT and H(2)Pc-Py/SWNT has been performed in suspension and in thin films by means of different spectroscopic and photoelectrochemical techniques. Transient absorption experiments reveal photoinduced electron transfer between the photoactive components. ZnPc-Py/SWNT and H(2)Pc-Py/SWNT have been integrated into photoactive electrodes, revealing stable and reproducible photocurrents with monochromatic internal photoconversion efficiency values for H(2)Pc-Py/SWNT as large as 15 and 23% without and with an applied bias of +0.1 V.

Published

2010

15. Organic functionalisation and characterisation of single-walled carbon nanotubes

Author

Maurizio Prato, Prabhpreet Singh, Stéphane Campidelli, Alberto Bianco, Silvia Giordani, Davide Bonifazi, Immunologie et chimie thérapeutiques (ICT), Cancéropôle du Grand Est-Centre National de la Recherche Scientifique (CNRS), Dipartimento di Scienze Farmaceutiche & INSTM UdR Trieste, Université Trieste, Laboratoire Interfaces et Surfaces d'Oxydes (LISO), Service de physique de l'état condensé (SPEC - UMR3680), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut Rayonnement Matière de Saclay (IRAMIS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, School of Chemistry (CRANN), Trinity College Dublin, Département de Chimie, Facultés Universitaires Notre Dame de la Paix (FUNDP), P., Singh, S., Campidelli, S., Giordani, Bonifazi, Davide, A., Bianco, Prato, Maurizio, and Università degli studi di Trieste = University of Trieste

Subjects

Materials science, Alkylation, Free Radicals, Halogenation, Selective chemistry of single-walled nanotubes, Supramolecular chemistry, Nanotechnology, Covalent modification, 02 engineering and technology, Carbon nanotube, 010402 general chemistry, 01 natural sciences, law.invention, law, Microscopy, Esterification, Nanotubes, Carbon, [CHIM.ORGA]Chemical Sciences/Organic chemistry, Spectrum Analysis, Oxidation reduction, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Covalent bond, ", Spectrum analysis, 0210 nano-technology, Oxidation-Reduction

Abstract

Since carbon nanotubes (CNTs) display unique structures and remarkable physical properties, a variety of applications have emerged in both materials and life sciences. In terms of applications, the functionalisation of nanotubes is extremely important, as it increases their solubility and processability, and combines the unique properties of single-walled carbon nanotubes (SWCNTs) with those of other classes of materials. A number of methods have been developed, which can be divided into two major approaches: (1) non-covalent supramolecular modifications, and (2) covalent functionalisation. In this tutorial review, we survey the covalent modification of SWCNTs with organic moieties, and illustrate the major analytical techniques routinely used to characterise the functionalised materials. © 2009 The Royal Society of Chemistry.

Published

2009

16. A dendritic fullerene–porphyrin dyad

Author

Stéphane Campidelli, Dirk M. Guldi, Dragana Milić, Angela Swartz, G. M. Aminur Rahman, Ester Vázquez, Maurizio Prato, Robert Deschenaux, S., Campidelli, R., Deschenaux, A., Swartz, G. M. A., Rahman, D. M., Guldi, D., Milic, E., Vzquez, and Prato, Maurizio

Subjects

Dendrimers, Fullerene, Molecular Structure, 010405 organic chemistry, Metalloporphyrins, Nanosecond, 010402 general chemistry, Photochemistry, 01 natural sciences, Porphyrin, Photoinduced electron transfer, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Picosecond, Dendrimer, Ultrafast laser spectroscopy, ", Fullerenes, Physical and Theoretical Chemistry, Time-resolved spectroscopy

Abstract

We describe the synthesis, characterization and photophysical properties of a fullerene derivative whose structure includes a Zn-porphyrin and a second generation liquid-crystalline (LC) dendrimer. The size of the fullerene and porphyrin units with respect to the size of the LC dendrimer prevents the formation of liquid-crystalline phases. However, this system gives interesting photoinduced electron transfer phenomena. Compound 1 has been investigated by steady state and time resolved fluorescence as well as transient absorption spectroscopy in polar and apolar solvents. We demonstrate that the fluorescence of the porphyrin unit in 1 is quenched compared to the Zn-tetraphenylporphyrin used as reference. Femto- and picosecond transient absorption permit to identify the formation of a radical ion pair while nanosecond experiments allowed the determination of the charge recombination lifetimes.

Published

2008

17. Photophysical, electrochemical, and mesomorphic properties of a liquid-crystalline [60]fullerene-peralkylated ferrocene dyad

Author

Robert Deschenaux, Stéphane Campidelli, Massimo Marcaccio, Maurizio Carano, Ester Vázquez, Dragana Milić, Dirk M. Guldi, Marjorie Séverac, David Scanu, Francesco Paolucci, Maurizio Prato, G. M. Aminur Rahman, Campidelli S., Severac M., Scanu D., Deschenaux R., Vazquez E, Milic D., Prato M., Carano M., Marcaccio M., Paolucci F., Rahman G. M. A., Guldi D. M., S., Campidelli, M., Séverac, D., Scanu, R., Deschenaux, E., Vázquez, D., Milic, Prato, Maurizio, M., Carano, M., Marcaccio, F., Paolucci, G. M. A., Rahman, and D. M., Guldi

Subjects

Fullerene, 010405 organic chemistry, General Chemistry, 010402 general chemistry, Photochemistry, 01 natural sciences, Photoinduced electron transfer, 0104 chemical sciences, chemistry.chemical_compound, Electron transfer, Ferrocene, chemistry, Liquid crystal, Dendrimer, Polymer chemistry, ", Materials Chemistry, Cyclic voltammetry, Derivative (chemistry)

Abstract

Two fullerene-peralkylated ferrocene derivatives were synthesized: (1) a liquid-crystalline dyad (compound 1) was obtained by introduction of nonamethyl ferrocene into a liquid-crystalline fullerene derivative and (2) a reference compound (compound 2) was synthesized by attachment of nonamethyl ferrocene to a fulleropyrrolidine. The liquid-crystalline dyad displayed an enantiotropic smectic A phase from 57 to 155 degrees C. Oxidation and reduction processes were investigated by cyclic voltammetry, and were in agreement with the electrochemical characteristics of the redox-active units (peralkylated ferrocene, fullerene, dendrimer). Photoinduced electron transfer from ferrocene derivative to fullerene was identified.

Published

2008

18. Pyrene-Tetrathiafulvalene Supramolecular Assembly with Different Types of Carbon Nanotubes

Author

Ehli, C., Guldi, D. M., Herranz, M. Á., Martín, N., Campidelli, S., Prato, Maurizio, C., Ehli, D. M., Guldi, M. Á., Herranz, N., Martín, S., Campidelli, and Prato, Maurizio

Subjects

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Published

2008

19. Immobilization of Oligoquinoline Chains on Single-Wall Carbon Nanotubes and their Optical Behaviour

Author

Chochos, C. L., Stefopoulos, A. A., Campidelli, S., Prato, Maurizio, Gregoriou, V. G., Kallitsis, J. K., C. L., Chocho, A. A., Stefopoulo, S., Campidelli, Prato, Maurizio, V. G., Gregoriou, and J. K., Kallitsis

Subjects

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Published

2008

20. Single-wall carbon nanotube porphyrin nanoconjugates

Author

Fulvio G. Brunetti, Maurizio Prato, Christian Ehli, Dirk M. Guldi, Stéphane Campidelli, C., Ehli, S., Campidelli, F. G., Brunetti, Prato, Maurizio, and D. M., Guldi

Subjects

Nanotechnology, General Chemistry, Carbon nanotube, Photochemistry, Porphyrin, law.invention, chemistry.chemical_compound, chemistry, Covalent bond, law, Excited state, Ultrafast laser spectroscopy, ", Surface modification, Singlet state, Ground state

Abstract

We describe the synthesis, microscopic and spectroscopic characterization of a novel donor-acceptor prototype, namely, a single wall carbon nanotube (SWNT) nanoconjugate bearing a covalently linked free base porphyrin ( H 2 P ). In the characterized SWNT- H 2 P nanoconjugate the electronic features of SWNT are largely retained, when compared to pristine SWNT. In fact, carefully controlled reaction conditions lead to a low degree of SWNT functionalization, as evidenced by the preservation of the SWNT van Hove singularities. As a consequence, the overall SWNT loading with H 2 P is so low that in the ground state, the H 2 P features are barely seen, which is different from the excited state, where features of H 2 P are clearly discernable. For example, fluorescence and transient absorption characteristics corroborate, unequivocally, the formation of the H 2 P singlet excited state, which is, however, impacted by the presence of SWNT.

Published

2007

21. Separation of Metallic and Semiconducting Single-Walled Carbon Nanotubes via Covalent Functionalization

Author

Stéphane Campidelli, Maurizio Prato, Moreno Meneghetti, S., Campidelli, M., Meneghetti, and Prato, Maurizio

Subjects

Thiosemicarbazones, Materials science, Selective chemistry of single-walled nanotubes, Carbon nanotube, Spectrum Analysis, Raman, law.invention, Biomaterials, Metal, Potential applications of carbon nanotubes, law, General Materials Science, Spectroscopy, Near-Infrared, Carbon nanofiber, Nanotubes, Carbon, General Chemistry, Carbon nanobud, Chemical engineering, Semiconductors, Metals, visual_art, visual_art.visual_art_medium, ", Surface modification, Spectrophotometry, Ultraviolet, Carbon nanotube supported catalyst, Azo Compounds, Biotechnology

Published

2007

22. Synthesis, characterization, and photoinduced electron transfer in functionalized single wall carbon nanohorns

Author

Dirk M. Guldi, Massimo Marcaccio, Carla Cioffi, Demis Paolucci, G. M. Aminur Rahman, Moreno Meneghetti, Francesco Paolucci, Christian Ehli, Vito Sgobba, Maurizio Prato, Stéphane Campidelli, Gabriele Marcolongo, Chloé Sooambar, C., Cioffi, S., Campidelli, C., Sooambar, M., Marcaccio, G., Marcolongo, M., Meneghetti, D., Paolucci, F., Paolucci, C., Ehli, G. M. A., Rahman, V., Sgobba, D. M., Guldi, Prato, Maurizio, Cioffi C., Campidelli S., Sooambar C., Marcaccio M., Marcolongo G., Meneghetti M., Paolucci D., Paolucci F., Ehli C., Rahman G. M. A., Sgobba V., Guldi D. M., and Prato M.

Subjects

Functionalization and characterization of carbon nanohorns, Photochemistry, Electrons, Carbon nanotube, Single-walled carbon nanohorn, Microscopy, Atomic Force, Spectrum Analysis, Raman, Electrochemistry, Biochemistry, Catalysis, Photoinduced electron transfer, Carbon Nanohorns, law.invention, Low dimensional Carbon nanostructures, chemistry.chemical_compound, Colloid and Surface Chemistry, Microscopy, Electron, Transmission, law, Organic chemistry, Nanotubes, Carbon, Chemistry, General Chemistry, Porphyrin, Carbon, Nanostructures, ", Surface modification, Cyclic voltammetry, Ethylene glycol

Abstract

Single-wall carbon nanohorns (SWNHs) are a new class of material that is closely related to single-wall carbon nanotubes. Here, we describe the synthesis and characterization of a series of SWNHs functionalized with ethylene glycol chains and porphyrins. Functionalization of carbon nanohorns has been achieved using two different synthetic protocols: (1) direct attack of a free amino group on the nanohorn sidewalls (nucleophilic addition) and (2) amidation reaction of the carboxylic functions in oxidized nanohorns. The nanohorn derivatives have been characterized by a combination of several techniques, and the electronic properties of the porphyrin/nanohorn assemblies (SWNH/H2P) have been investigated by electrochemistry, spectroelectrochemistry, and a series of steady-state and time-resolved spectroscopy. The cyclic voltammetry curve of nanohorn/porphyrin conjugate 6 showed a continuum of faradic and pseudocapacitive behavior, which is associated with multiple-electron transfers to and from the SWNHs. Superimposed on such a pseudocapacitive current, the curve also displays three discrete reduction peaks at -2.26, -2.57, and -2.84 V and an oxidation peak at 1.12 V (all attributed to the porphyrin moiety). Steady-state and time-resolved fluorescence demonstrated a quenching of the fluorescence of the porphyrin in SWNH/H2P conjugates 5 and 6 compared to the reference free base porphyrin. Transient absorption spectra permitted the electron-transfer process between the porphyrins and the carbon nanostructures to be highlighted.

Published

2007

23. Functionalisation of carbon nanohorns

Author

Maurizio Prato, Carla Cioffi, Moreno Meneghetti, Stéphane Campidelli, Fulvio G. Brunetti, C., Cioffi, S., Campidelli, F. G., Brunetti, M., Meneghetti, and Prato, Maurizio

Subjects

Materials science, chemistry.chemical_element, Nanotechnology, Spectrum Analysis, Raman, Catalysis, Microscopy, Electron, Transmission, Microscopy, Materials Chemistry, Spectroscopy, Aldehydes, Nanotubes, Carbon, Metals and Alloys, Sarcosine, General Chemistry, Cycloaddition, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Thermogravimetry, Chemical engineering, chemistry, Ceramics and Composites, ", Microscopy, Electron, Scanning, Ethylene Glycols, Spectrophotometry, Ultraviolet, Carbon

Abstract

The functionalisation of single wall carbon nanohorns via 1,3-dipolar cycloaddition has been achieved, and the products have been characterised by spectroscopy, microscopy and thermogravimetry.

Published

2006

24. SUPRAMOLECULAR ASSEMBLIES OF DIFFERENT CARBON NANOTUBES FOR PHOTOCONVERSION PROCESSES

Author

Guldi, D. M., Rahman, G. M. A., Sgobba, V., Campidelli, S., Prato, Maurizio, D. M., Guldi, G. M. A., Rahman, V., Sgobba, S., Campidelli, and Prato, Maurizio

Subjects

"

Published

2006

25. Functionalization of CNT: Synthesis and applications in photovoltaics and biology

Author

Campidelli, S., Klumpp, C., Bianco, A., Guldi, D. M., Prato, Maurizio, S., Campidelli, C., Klumpp, A., Bianco, D. M., Guldi, and Prato, Maurizio

Subjects

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Published

2006

26. Versatile coordination chemistry towards multifunctional carbon nanotube nanohybrids

Author

Dirk M. Guldi, Stéphane Campidelli, G. M. Aminur Rahman, Maurizio Prato, Demis Paolucci, Maxim N. Tchoul, Massimo Marcaccio, Francesco Paolucci, Warren T. Ford, Shuhui Qin, Dirk M. G., G. M. Aminur Rahman, Shuhui Qin, Maxim Tchoul, Warren T. Ford, M. Marcaccio, D. Paolucci, F. Paolucci, Stéphane Campidelli and Maurizio Prato, D. M., Guldi, G. M. A., Rahman, S., Qin, M., Tchoul, W. T., Ford, M., Marcaccio, D., Paolucci, F., Paolucci, S., Campidelli, and Prato, Maurizio

Subjects

chemistry.chemical_classification, Quenching (fluorescence), Organic Chemistry, HYBRID SYSTEMS, chemistry.chemical_element, CHARGE TRANSFER · DONOR–ACCEPTOR SYSTEMS, General Chemistry, Zinc, Carbon nanotube, Chromophore, Photochemistry, Catalysis, Coordination complex, law.invention, Microsecond, chemistry, law, PORPHYRINOIDS, ", Organic chemistry, CARBON NANOTUBE

Abstract

Dispersible single-walled carbon nanotubes grafted with poly(4-vinylpyr- idine), SWNT-PVP, were tested in coordination assays with zinc tetraphenylpor- phyrin (ZnP). Kinetic and spectroscopic evidence corroborates the successful for- mation of a SWNT-PVP·ZnP nanohybrid. Within this SWNT-PVP·ZnP nanohy- brid, static electron-transfer quenching (2.0 � 0.1) = 10 9 s � 1 converts the photoexcit- ed-ZnP chromophore into a radical-ion-pair state with a microsecond lifetime, namely one-electron oxidized-ZnP and reduced-SWNT.

Published

2006

27. INTERACTIONS IN SINGLE WALL CARBON NANOTUBES/PYRENE/PORPHYRIN NANOHYBRIDS

Author

Demis Paolucci, Massimo Marcaccio, Francesco Zerbetto, Norbert Jux, Christian Ehli, Domenico Balbinot, Francesco Paolucci, Dirk M. Guldi, Maurizio Prato, Manuel Melle-Franco, Stéphane Campidelli, G. M. Aminur Rahman, Ehli C., Rahman G. M. A., Jux N., Balbinot D., Guldi D. M., Paolucci F., Marcaccio M., Paolucci D., Melle-Franco M., Zerbetto F., Campidelli S., Prato M., C., Ehli, G. M. A., Rahman, N., Jux, D., Balbinot, D. M., Guldi, F., Paolucci, M., Marcaccio, D., Paolucci, M., MELLE FRANCO, F., Zerbetto, S., Campidelli, and Prato, Maurizio

Subjects

chemistry.chemical_classification, Aqueous solution, Porphyrins, Pyrenes, Nanotubes, Carbon, Supramolecular chemistry, Electron donor, General Chemistry, Carbon nanotube, Electron acceptor, Electrochemistry, Photochemistry, Biochemistry, Porphyrin, Catalysis, law.invention, chemistry.chemical_compound, Colloid and Surface Chemistry, Spectrometry, Fluorescence, chemistry, Microscopy, Electron, Transmission, law, ", Pyrene

Abstract

This work provides an in-depth look at a range of physicochemical aspects of (i) single wall carbon nanotubes (SWNT), (ii) pyrene derivatives (pyrene(+)), (iii) porphyrin derivatives (ZnP(8)()(-)() and H(2)()P(8)()(-)()), (iv) poly(sodium 4-styrenesulfonate), and (v) their combinations. Implicit in their supramolecular combinations is the hierarchical integration of SWNT (as electron acceptors), together with ZnP(8)()(-)() or H(2)()P(8)()(-)() (as electron donors), in an aqueous environment mediated through pyrene(+). This supramolecular approach yields novel electron donor-acceptor nanohybrids (SWNT/pyrene(+)/ZnP(8)()(-)() or SWNT/pyrene(+)/H(2)()P(8)()(-)()). In particular, we report on electrochemical and photophysical investigations that as a whole suggest sizeable and appreciable interactions between the individual components. The key step to form SWNT/pyrene(+)()/ZnP(8)()(-)() or SWNT/pyrene(+)()/H(2)()P(8)()(-)() hybrids is pi-pi interactions between SWNT and pyrene(+), for which we have developed for the first time a sensitive marker. The marker is the monomeric pyrene fluorescence, which although quenched is (i) only present in SWNT/pyrene(+) and (ii) completely lacking in just pyrene(+). Electrostatic interactions help to immobilize ZnP(8)()(-)() or H(2)()P(8)()(-)() onto SWNT/pyrene(+) to yield the final electron donor-acceptor nanohybrids. A series of photochemical experiments confirm that long-lived radical ion pairs are formed as a product of a rapid excited-state deactivation of ZnP(8)()(-)() or H(2)()P(8)()(-)(). This formation is fully rationalized on the basis of the properties of the individual moieties. Additional modeling shows that the data are likely to be relevant to the SWNTs present in the sample, which possess wider diameters.

Published

2006

28. Liquid-crystalline fullerene-ferrocene dyads

Author

Joaquín Barberá, Massimo Marcaccio, Francesco Paolucci, Stéphane Campidelli, Dirk M. Guldi, Robert Deschenaux, Maurizio Prato, Dragana Milić, Demis Paolucci, Ester Vázquez, CAMPIDELLI STEPHANE, VAZQUEZ ESTER, MILIC DRAGANA, PRATO MAURIZIO, BARBERA JOAQUIN, GULDI DIRK M., MARCACCIO MASSIMO, PAOLUCCI DEMIS, PAOLUCCI F., DESCHENAUX ROBERT, S., Campidelli, E., Vzquez, D., Milic, Prato, Maurizio, J., Barber, D. M., Guldi, M., Marcaccio, D., Paolucci, F., Paolucci, and R., Deschenaux

Subjects

Fullerene, Bilayer, Mesogen, Mesophase, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Photoinduced electron transfer, 0104 chemical sciences, chemistry.chemical_compound, Crystallography, Ferrocene, chemistry, Liquid crystal, Dendrimer, ", Materials Chemistry, 0210 nano-technology

Abstract

The 1,3-dipolar cycloaddition reaction was used to assemble fullerene, ferrocene and a second-generation liquid-crystalline cyanobiphenyl-based dendrimer. The targeted compound displayed an enantiotropic smectic A phase from 40 to 135degreesC. The d-layer spacing was determined by X-ray diffraction, and was found to be independent of temperature with a value of 95 Angstrom. Molecular modeling and structural considerations suggested partial bilayer organization of the mesogenic molecular units within the smectic layers. Oxidation or reduction processes of the basic components (ferrocene, fullerene, dendrimer) were investigated by electrochemical techniques, and were in agreement with the structure. Photoinduced electron transfer from ferrocene to fullerene was identified, most likely with a "through space" mechanism.

Published

2004

29. Planar and Curved π-Extended Porphyrins by On-Surface Cyclodehydrogenation.

Author

Baljozović M, Pijeat J, Campidelli S, and Ernst KH

Abstract

Recent advancements in on-surface synthesis have enabled the reliable and predictable preparation of atomically precise low-dimensional materials with remarkable properties, which are often unattainable through traditional wet chemistry. Among these materials, porphyrins stand out as a particularly intriguing class of molecules, extensively studied both in solution and on surfaces. Their appeal lies in the ability to fine-tune their unique chemical and physical properties through central metal exchange or peripheral functionalization. However, the synthesis of π-extended porphyrins featuring unsubstituted anthracenyl groups has remained elusive. Herein, we report an in vacuo temperature-controlled cyclodehydrogenation of bis- and tetraanthracenyl Zn(II) porphyrins on a gold(111) surface. By gradually increasing the temperature, sequential dehydrogenation leads to the formation of fused anthracenyl porphyrin products. Notably, at high molecular coverage, the formation of bowl-shaped porphyrins occurs, along with transmetalation of Zn with Au. These findings open the door to a variety of π-extended anthracenyl-containing porphyrin products via cyclodehydrogenation and transmetalation, offering significant potential in the fields of molecular (photo/electro)catalysis, (opto)electronics, and spintronics.

Published

2024

30. Advanced 1D heterostructures based on nanotube templates and molecules.

Author

Allard C, Alvarez L, Bantignies JL, Bendiab N, Cambré S, Campidelli S, Fagan JA, Flahaut E, Flavel B, Fossard F, Gaufrès E, Heeg S, Lauret JS, Loiseau A, Marceau JB, Martel R, Marty L, Pichler T, Voisin C, Reich S, Setaro A, Shi L, and Wenseleers W

Abstract

Recent advancements in materials science have shed light on the potential of exploring hierarchical assemblies of molecules on surfaces, driven by both fundamental and applicative challenges. This field encompasses diverse areas including molecular storage, drug delivery, catalysis, and nanoscale chemical reactions. In this context, the utilization of nanotube templates (NTs) has emerged as promising platforms for achieving advanced one-dimensional (1D) molecular assemblies. NTs offer cylindrical, crystalline structures with high aspect ratios, capable of hosting molecules both externally and internally (Mol@NT). Furthermore, NTs possess a wide array of available diameters, providing tunability for tailored assembly. This review underscores recent breakthroughs in the field of Mol@NT. The first part focuses on the diverse panorama of structural properties in Mol@NT synthesized in the last decade. The advances in understanding encapsulation, adsorption, and ordering mechanisms are detailed. In a second part, the review highlights the physical interactions and photophysics properties of Mol@NT obtained by the confinement of molecules and nanotubes in the van der Waals distance regime. The last part of the review describes potential applicative fields of these 1D heterostructures, providing specific examples in photovoltaics, luminescent materials, and bio-imaging. A conclusion gathers current challenges and perspectives of the field to foster discussion in related communities.

Published

2024

31. In Operando Study of Charge Modulation in MoS 2 Transistors by Excitonic Reflection Microscopy.

Author

Ullberg N, Filoramo A, Campidelli S, and Derycke V

Abstract

Monolayers of transition metal dichalcogenides (2D TMDs) experience strong modulation of their optical properties when the charge density is varied. Indeed, the transition from carriers composed mostly of excitons at low electron density to a situation in which trions dominate at high density is accompanied by a significant evolution of both the refractive index and the extinction coefficient. Using optical interference reflection microscopy at the excitonic wavelength, this ( n , κ)- q relationship can be exploited to directly image the electron density in operating TMD devices. In this work, we show how this technique, which we call XRM (excitonic reflection microscopy), can be used to study charge distribution in MoS 2 field-effect transistors with subsecond throughput, in wide-field mode. Complete maps of the charge distribution in the transistor channel at any drain and gate bias polarization point ( V DS , V GS ) are obtained, at ∼3 orders of magnitude faster than with scanning probe techniques such as KPFM. We notably show how the advantages of XRM enable real-time mapping of bias-dependent charge inhomogeneities, the study of resistive delays in 2D polycrystalline networks, and the evaluation of the V DS vs V GS competition to control the charge distribution in active devices.

Published

2024

32. One-year post-exposure assessment of 14 C-few-layer graphene biodistribution in mice: single versus repeated intratracheal administration.

Author

Sallustrau A, Keck M, Barbe P, Georgin D, Fresneau N, Campidelli S, Pibaleau B, Pinault M, Mayne-L'Hermite M, Granotier-Beckers C, Schlegel M, González VJ, Vázquez E, Servent D, and Taran F

Subjects

Animals, Mice, Tissue Distribution, Lung diagnostic imaging, Graphite, Nanostructures

Abstract

Research on graphene-based nanomaterials has experienced exponential growth in the last few decades, driven by their unique properties and their future potential impact on our everyday life. With the increasing production and commercialization of these materials, there is significant interest in understanding their fate in vivo . Herein, we investigated the distribution of 14 C-few-layer graphene ( 14 C-FLG) flakes (lat. dim. ∼ 500 nm) in mice over a period of one year. Furthermore, we compared the effects of repeated low-dose and acute high-dose exposure by tracheal administration. The results showed that most of the radioactivity was found in the lungs in both cases, with longer elimination times in the case of acute high-dose administration. In order to gain deeper insights into the distribution pattern, we conducted ex vivo investigations using μ-autoradiography on tissue sections, revealing the heterogeneous distribution of the material following administration. For the first time, μ-autoradiography was used to conduct a comprehensive investigation into the distribution and potential presence of FLG within lung cells isolated from the exposed lungs. The presence of radioactivity in lung cells strongly suggests internalization of the 14 C-FLG particles. Overall these results show the long-term accumulation of the material in the lungs over one year, regardless of the administration protocol, and the higher biopersistence of FLG in the case of an acute exposure. These findings highlight the importance of the exposure scenario in the context of intratracheal administration, which is of interest in the evaluation of the potential health risks of graphene-based nanomaterials.

Published

2023

33. Interplay of structure and photophysics of individualized rod-shaped graphene quantum dots with up to 132 sp² carbon atoms.

Author

Medina-Lopez D, Liu T, Osella S, Levy-Falk H, Rolland N, Elias C, Huber G, Ticku P, Rondin L, Jousselme B, Beljonne D, Lauret JS, and Campidelli S

Abstract

Nanographene materials are promising building blocks for the growing field of low-dimensional materials for optics, electronics and biophotonics applications. In particular, bottom-up synthesized 0D graphene quantum dots show great potential as single quantum emitters. To fully exploit their exciting properties, the graphene quantum dots must be of high purity; the key parameter for efficient purification being the solubility of the starting materials. Here, we report the synthesis of a family of highly soluble and easily processable rod-shaped graphene quantum dots with fluorescence quantum yields up to 94%. This is uncommon for a red emission. The high solubility is directly related to the design of the structure, allowing for an accurate description of the photophysical properties of the graphene quantum dots both in solution and at the single molecule level. These photophysical properties were fully predicted by quantum-chemical calculations., (© 2023. Springer Nature Limited.)

Published

2023

34. Correlative radioimaging and mass spectrometry imaging: a powerful combination to study 14 C-graphene oxide in vivo biodistribution.

Author

Cazier H, Malgorn C, Georgin D, Fresneau N, Beau F, Kostarelos K, Bussy C, Campidelli S, Pinault M, Mayne-L'Hermite M, Taran F, Junot C, Fenaille F, Sallustrau A, and Colsch B

Subjects

Animals, Mice, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Tissue Distribution, Carbon Radioisotopes, Graphite chemistry, Nanotubes, Carbon

Abstract

Research on graphene based nanomaterials has flourished in the last decade due their unique properties and emerging socio-economic impact. In the context of their potential exploitation for biomedical applications, there is a growing need for the development of more efficient imaging techniques to track the fate of these materials. Herein we propose the first correlative imaging approach based on the combination of radioimaging and mass spectrometry imaging for the detection of Graphene Oxide (GO) labelled with carbon-14 in mice. In this study, 14 C-graphene oxide nanoribbons were produced from the oxidative opening of 14 C-carbon nanotubes, and were then intensively sonicated to provide nano-size 14 C-GO flakes. After Intravenous administration in mice, 14 C-GO distribution was quantified by radioimaging performed on tissue slices. On the same slices, MS-imaging provided a highly resolved distribution map of the nanomaterial based on the detection of specific radical anionic carbon clusters ranging from C2˙ - to C9˙ - with a base peak at m / z 72 ( 12 C) and 74 ( 14 C) under negative laser desorption ionization mass spectrometry (LDI-MS) conditions. This proof of concept approach synergizes the strength of each technique and could be advantageous in the pre-clinical development of future Graphene-based biomedical applications.

Published

2023

35. Vibronic fingerprints in the luminescence of graphene quantum dots at cryogenic temperature.

Author

Liu T, Carles B, Elias C, Tonnelé C, Medina-Lopez D, Narita A, Chassagneux Y, Voisin C, Beljonne D, Campidelli S, Rondin L, and Lauret JS

Abstract

Atomically precise graphene quantum dots synthesized by bottom-up chemistry are promising versatile single emitters with potential applications for quantum photonic technologies. Toward a better understanding and control of graphene quantum dot (GQD) optical properties, we report on single-molecule spectroscopy at cryogenic temperature. We investigate the effect of temperature on the GQDs' spectral linewidth and vibronic replica, which we interpret building on density functional theory calculations. Finally, we highlight that the vibronic signatures are specific to the GQD geometry and can be used as a fingerprint for identification purposes.

Published

2022

36. Vibronic effect and influence of aggregation on the photophysics of graphene quantum dots.

Author

Liu T, Tonnelé C, Zhao S, Rondin L, Elias C, Medina-Lopez D, Okuno H, Narita A, Chassagneux Y, Voisin C, Campidelli S, Beljonne D, and Lauret JS

Abstract

Graphene quantum dots, atomically precise nanopieces of graphene, are promising nano-objects with potential applications in various domains such as photovoltaics, quantum light emitters and bio-imaging. Despite their interesting prospects, precise reports on their photophysical properties remain scarce. Here, we report on a study of the photophysics of C 96 H 24 (C 12 H 25 ) graphene quantum dots. A combination of optical studies down to the single molecule level with advanced molecular modelling demonstrates the importance of coupling to vibrations in the emission process. Optical fingerprints for H-like aggregates are identified. Our combined experimental-theoretical investigations provide a comprehensive description of the light absorption and emission properties of nanographenes, which not only represents an essential step towards precise control of sample production but also paves the way for new exciting physics focused on twisted graphenoids.

Published

2022

37. One-Step Preparation of Fe/N/C Single-Atom Catalysts Containing Fe-N 4 Sites from an Iron Complex Precursor with 5,6,7,8-Tetraphenyl-1,12-Diazatriphenylene Ligands.

Author

Matsumoto K, Kato M, Yagi I, Xie S, Asakura K, Noro SI, Tohnai N, Campidelli S, Hayashi T, and Onoda A

Abstract

Fe/N/C single-atom catalysts containing Fe-N x sites prepared by pyrolysis are promising cathode materials for fuel cells and metal-air batteries due to their high oxygen reduction reaction (ORR) activities. We have developed iron complexes containing N2- or N3-chelating coordination structures with preorganized aromatic rings in a 1,12-diazatriphenylene framework tethering bromo substituents as precursors to precisely construct Fe-N 4 sites in an Fe/N/C catalyst. One-step pyrolysis of the iron complex with carbon black forms atomically dispersed Fe-N 4 sites without iron aggregates. X-ray absorption spectroscopy (XAS) and electrochemical measurements revealed that the iron complex with N3-coordination is more effectively converted to Fe-N 4 sites catalyzing ORR with a TOF value of 0.21 e site -1  s -1 at 0.8 V vs. RHE. This indicates that the formation of Fe-N 4 sites is controlled by precise tuning of the chemical structure of the iron complex precursor., (© 2021 Wiley-VCH GmbH.)

Published

2022

38. Solution-Processed Graphene-Nanographene van der Waals Heterostructures for Photodetectors with Efficient and Ultralong Charge Separation.

Author

Liu Z, Qiu H, Fu S, Wang C, Yao X, Dixon AG, Campidelli S, Pavlica E, Bratina G, Zhao S, Rondin L, Lauret JS, Narita A, Bonn M, Müllen K, Ciesielski A, Wang HI, and Samorì P

Abstract

Sensitization of graphene with inorganic semiconducting nanostructures has been demonstrated as a powerful strategy to boost its optoelectronic performance. However, the limited tunability of optical properties and toxicity of metal cations in the inorganic sensitizers prohibits their widespread applications, and the in-depth understanding of the essential interfacial charge-transfer process within such hybrid systems remains elusive. Here, we design and develop high-quality nanographene (NG) dispersions with a large-scale production using high-shear mixing exfoliation. The physisorption of these NG molecules onto graphene gives rise to the formation of graphene-NG van der Waals heterostructures (VDWHs), characterized by strong interlayer coupling through π-π interactions. As a proof of concept, photodetectors fabricated on the basis of such VDWHs show ultrahigh responsivity up to 4.5 × 10 7 A/W and a specific detectivity reaching 4.6 × 10 13 Jones, being competitive with the highest values obtained for graphene-based photodetectors. The outstanding device characteristics are attributed to the efficient transfer of photogenerated holes from NGs to graphene and the long-lived charge separation at graphene-NG interfaces (beyond 1 ns), as elucidated by ultrafast terahertz (THz) spectroscopy. These results demonstrate the great potential of such graphene-NG VDWHs as prototypical building blocks for high-performance, low-toxicity optoelectronics.

Published

2021

39. Thermally Induced Synthesis of Anthracene-, Pyrene- and Naphthalene-Fused Porphyrins.

Author

Pijeat J, Chaussy L, Simoës R, Isopi J, Lauret JS, Paolucci F, Marcaccio M, and Campidelli S

Abstract

The synthesis of π-extended porphyrins containing anthracenyl moieties still represents an important challenge. Here, we report on the synthesis of a series of unsubstituted naphthyl-, pyrenyl- and anthracenyl-fused zinc porphyrin derivatives. To this aim, meso-substitued porphyrins are synthesized and the fusion of the PAHs (Polycyclic Aromatic Hydrocarbon) on the β-positions are performed through thermally induced dehydro-aromatization. The fused zinc-porphyrin derivatives are fully characterized and their optical absorption and photoluminescence properties are reported. We also demonstrate that zinc can be removed from the porphyrin core, giving rise to pure C, H, N materials. This work constitutes the first step towards the synthesis of the fully-fused tetra-anthracenylporphyrin., (© 2021 The Authors. Published by Wiley-VCH GmbH.)

Published

2021

40. Thermally Controlled Construction of Fe-N x Active Sites on the Edge of a Graphene Nanoribbon for an Electrocatalytic Oxygen Reduction Reaction.

Author

Matsumoto K, Onoda A, Kitano T, Sakata T, Yasuda H, Campidelli S, and Hayashi T

Abstract

Pyrolytically prepared iron and nitrogen codoped carbon (Fe/N/C) catalysts are promising nonprecious metal electrocatalysts for the oxygen reduction reaction (ORR) in fuel cell applications. Fabrication of the Fe/N/C catalysts with Fe-N x active sites having precise structures is now required. We developed a strategy for thermally controlled construction of the Fe-N x structure in Fe/N/C catalysts by applying a bottom-up synthetic methodology based on a N-doped graphene nanoribbon (N-GNR). The preorganized aromatic rings within the precursors assist graphitization during generation of the N-GNR structure with iron-coordinating sites. The Fe/N/C catalyst prepared from the N-GNR precursor, iron ion, and the carbon support Vulcan XC-72R provides a high onset potential of 0.88 V (vs reversible hydrogen electrode (RHE)) and promotes efficient four-electron ORR. X-ray absorption fine structure (XAFS) and X-ray photoelectron spectroscopy (XPS) studies reveal that the N-GNR precursor induces the formation of iron-coordinating nitrogen species during pyrolysis. The details of the graphitization process of the precursor were further investigated by analyzing the precursors pyrolyzed at various temperatures using MgO particles as a sacrificial template, with the results indicating that the graphitized structure was obtained at 700 °C. The preorganized N-GNR precursors and its pyrolysis conditions for graphitization are found to be important factors for generation of the Fe-N x active sites along with the N-GNR structure in high-performance Fe/N/C catalysts for the ORR.

Published

2021

41. Development of a Mass Spectrometry Imaging Method for Detecting and Mapping Graphene Oxide Nanoparticles in Rodent Tissues.

Author

Cazier H, Malgorn C, Fresneau N, Georgin D, Sallustrau A, Chollet C, Tabet JC, Campidelli S, Pinault M, Mayne M, Taran F, Dive V, Junot C, Fenaille F, and Colsch B

Subjects

Animals, Female, Graphite administration & dosage, Mice, Mice, Inbred BALB C, Graphite analysis, Liver chemistry, Lung chemistry, Nanoparticles analysis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods

Abstract

Graphene-based nanoparticles are continuously being developed for biomedical applications, and their use raises concerns about their environmental and biological impact. In the literature, some imaging techniques based on fluorescence and radioimaging have been used to explore their fate in vivo . Here, we report on the use of label-free mass spectrometry and mass spectrometry imaging (MSI) for graphene oxide (GO) and reduced graphene oxide (rGO) analyses in rodent tissues. Thereby, we extend previous work by focusing on practical questions to obtain reliable and meaningful images. Specific radical anionic carbon clusters ranging from C 2 -• to C 9 -• were observed for both GO and rGO species, with a base peak at m / z 72 under negative laser desorption ionization mass spectrometry (LDI-MS) conditions. Extension to an LDI-MSI method was then performed, thus enabling the efficient detection of GO nanoparticles in lung tissue sections of previously exposed mice. The possibility of quantifying those nanoparticles on tissue sections has also been investigated. Two different ways of building calibration curves (i.e., GO suspensions spotted on tissue sections, or added to lung tissue homogenates) were evaluated and returned similar results, with linear dynamic concentration ranges over at least 2 orders of magnitude. Moreover, intra- and inter-day precision studies have been assessed, with relative standard deviation below 25% for each concentration point of a calibration curve. In conclusion, our study confirms that LDI-MSI is a relevant approach for biodistribution studies of carbon-based nanoparticles, as quantification can be achieved, provided that nanoparticle suspension and manufacturing are carefully controlled.

Published

2020

42. Ideal optical contrast for 2D material observation using bi-layer antireflection absorbing substrates.

Author

Jaouen K, Cornut R, Ausserré D, Campidelli S, and Derycke V

Abstract

The capability to observe 2D materials with optical microscopy techniques is of central importance in the development of the field and is a driving force for the assembly and study of 2D material van der Waals heterostructures. Such an observation of ultrathin materials usually benefits from antireflection conditions associated with the choice of a particular substrate geometry. The most common configuration uses a transparent oxide layer with a thickness minimizing light reflection at the air/substrate interface when light travels from air to the substrate. Backside Absorbing Layer Microscopy (BALM) is a newly proposed configuration in which light travels from glass to air (or another medium such as water or a solvent) and the antireflection layer is a light-absorbing material (typically a metal). We recently showed that this technique produces images of 2D materials with unprecedented contrast and can be ideally coupled to chemical and electrochemical experiments. Here, we show that contrast can be optimal using double-layer antireflection coatings. By following in situ and with sub-nm precision the controlled deposition of molecules, we notably establish precisely the ideal observation conditions for graphene oxide monolayers which represent one of the most challenging 2D material cases in terms of transparency and thickness. We also provide guidelines for the selection of antireflection coatings applicable to a large variety of nanomaterials. This work strengthens the potential of BALM as a generic, powerful and versatile technique for the study of molecular-scale materials and phenomena.

Published

2019

43. Light triggers molecular shuttling in rotaxanes: control over proximity and charge recombination.

Author

Wolf M, Ogawa A, Bechtold M, Vonesch M, Wytko JA, Oohora K, Campidelli S, Hayashi T, Guldi DM, and Weiss J

Abstract

We present the synthesis of novel rotaxanes based on mechanically interlocked porphyrins and fullerene and their advanced investigations by means of photophysical measurements. To this end, a fullerene-capped dumbbell-type axle containing a central triazole was threaded through strapped (metallo)porphyrins-either a free-base or a zinc porphyrin. Femtosecond-resolved transient absorption measurements revealed charge-separation between the porphyrin and fullerene upon light excitation. Solvent polarity and solvent coordination effects induced molecular motion of the rotaxanes upon charge separation and enabled, for the first time, subtle control over the charge recombination by enabling and controlling the directionality of shuttling.

Published

2019

44. Synthesis and Suzuki-Miyaura cross coupling reactions for post-synthetic modification of a tetrabromo-anthracenyl porphyrin.

Author

Pijeat J, Dappe YJ, Thuéry P, and Campidelli S

Abstract

The outstanding properties of porphyrins and the extreme versatility of their synthesis and their functionalisation constitute real assets for the fabrication of opto- and electroactive materials or for biological applications. In the large collection of porphyrinic structures, meso-substituted anthracenylporphyrins are among the less studied. Here, we synthesised the 5,10,15,20-tetra-bromoanthracenylporphyrin (BrTAP) and we investigated its chemical reactivity by post-synthetic modification using Suzuki-Miyaura cross coupling reactions with a series of boronic acids to generate a collection of original tetra-anthracenyl porphyrin based molecules: tetraphenylanthracenylporphyrin (TPAP), tetratolylanthracenylporphyrin (TTAP), tetramethoxyphenylanthracenylporphyrin (TMPAP), tetranaphthylanthracenylporphyrin (TNAP) and tetrapyrenylanthracenylporphyrin (TPyAP). Optical characterisations of these modified porphyrins showed, in most cases, only emission of the porphyrin in the visible region with extinction of the fluorescence of PAHs in the UV or visible region.

Published

2018

45. Grafting of porphyrin oligomers on single-walled carbon nanotubes by Hay coupling.

Author

Hijazi I, Khedhiri K, and Campidelli S

Abstract

The fabrication of nanotube-based functional materials is still limited by the difficulty in incorporating highly engineered molecules onto the nanotube surface. To overcome this difficulty, the development of procedures involving two subsequent reaction steps on the nanotubes appeared particularly promising. It was previously demonstrated that "click chemistry" (CuAAC) permits efficiently functionalising nanotubes with a wide variety of materials (from inorganic to biological). In this work, we present an original strategy based on Hay coupling (i.e. the oxidative coupling between triple bonds) to fabricate nanotube-porphyrin conjugates. Porphyrins containing ethynyl functional groups were attached on single-walled carbon nanotubes (SWNTs) bearing phenylacetylene groups and the resulting materials were fully characterised.

Published

2018

46. Single photon emission from graphene quantum dots at room temperature.

Author

Zhao S, Lavie J, Rondin L, Orcin-Chaix L, Diederichs C, Roussignol P, Chassagneux Y, Voisin C, Müllen K, Narita A, Campidelli S, and Lauret JS

Abstract

Graphene being a zero-gap material, considerable efforts have been made to develop semiconductors whose structure is compatible with its hexagonal lattice. Size reduction is a promising way to achieve this objective. The reduction of both dimensions of graphene leads to graphene quantum dots. Here, we report on a single-emitter study that directly addresses the intrinsic emission properties of graphene quantum dots. In particular, we show that they are efficient and stable single-photon emitters at room temperature and that their emission wavelength can be modified through the functionalization of their edges. Finally, the investigation of the intersystem crossing shows that the short triplet lifetime and the low crossing yield are in agreement with the high brightness of these quantum emitters. These results represent a step-forward in performing chemistry engineering for the design of quantum emitters.

Published

2018

47. Davydov Splitting and Self-Organization in a Porphyrin Layer Noncovalently Attached to Single Wall Carbon Nanotubes.

Author

Delport G, Vialla F, Roquelet C, Campidelli S, Voisin C, and Lauret JS

Abstract

We study the ability of porphyrin molecules to cooperate upon adsorption on the sp 2 curved surface of carbon nanotube. We discuss the role of the phenyl substituents in the cooperativity of the functionalization reaction. Moreover, a specific spatial organization of the molecules around the nanotube is unveiled through polarization sensitive experiments. Furthermore, we observe an increase of the energy splitting of the porphyrin main transition upon the adsorption on the nanotube. This effect, interpreted as a Davydov splitting, is analyzed quantitatively using a dipole-dipole coupling model. This study demonstrates the ability of porphyrin molecules to create an organized self-assembled layer at the surface of the nanotubes where molecules are electronically coupled together.

Published

2017

48. Electronic Transport of MoS 2 Monolayered Flakes Investigated by Scanning Electrochemical Microscopy.

Author

Henrotte O, Bottein T, Casademont H, Jaouen K, Bourgeteau T, Campidelli S, Derycke V, Jousselme B, and Cornut R

Abstract

The amazing properties of 2D materials are envisioned to revolutionize several domains such as flexible electronics, electrocatalysis, or biosensing. Herein we introduce scanning electrochemical microscopy (SECM) as a tool to investigate molybdenum disulfide in a straightforward fashion, providing localized information regarding the electronic transport within chemical vapor deposition (CVD)-grown crystalline MoS 2 single layers having micrometric sizes. Our investigations show that within flakes assemblies some flakes are well electrically interconnected, with no detectable contact resistance, whereas others are not electrically connected at all, independent of the size of the physical contact between them. Overall, the work shows how the complex electronic behavior of MoS 2 flake assemblies (semiconducting nature, contact quality between flakes) can be investigated with SECM., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

49. Self-assembly of porphyrin-DNA hybrids into large flat nanostructures.

Author

Chatelain G, Clavé G, Saint-Pierre C, Gasparutto D, and Campidelli S

Subjects

Nanotechnology, DNA chemistry, Nanostructures chemistry, Porphyrins chemistry

Abstract

The main aim of nanotechnology is to create functional systems by controlling the matter at the nanometer level. In this context DNA is a versatile building block for the fabrication of micrometer-scale objects with a subnanometer-scale resolution. Over the last 15 years, DNA nanotechnology has considerably developed with the invention of DNA origami, double crossover structures and molecule/oligonucleotide hybrids. Our interest is focused on the combination of short complementary DNA sequences with organic molecules with a view to create large self-assembled nanostructures. Here we report on the synthesis of porphyrin derivatives bearing up to four 21-mer oligonucleotides and we demonstrate that the combination of the molecular hybrids containing complementary DNA strands leads to the formation of large nanostructures with micrometer-scale size.

Published

2017

50. Backside absorbing layer microscopy: Watching graphene chemistry.

Author

Campidelli S, Abou Khachfe R, Jaouen K, Monteiller J, Amra C, Zerrad M, Cornut R, Derycke V, and Ausserré D

Abstract

The rapid rise of two-dimensional nanomaterials implies the development of new versatile, high-resolution visualization and placement techniques. For example, a single graphene layer becomes observable on Si/SiO 2 substrates by reflected light under optical microscopy because of interference effects when the thickness of silicon oxide is optimized. However, differentiating monolayers from bilayers remains challenging, and advanced techniques, such as Raman mapping, atomic force microscopy (AFM), or scanning electron microscopy (SEM) are more suitable to observe graphene monolayers. The first two techniques are slow, and the third is operated in vacuum; hence, in all cases, real-time experiments including notably chemical modifications are not accessible. The development of optical microscopy techniques that combine the speed, large area, and high contrast of SEM with the topological information of AFM is therefore highly desirable. We introduce a new widefield optical microscopy technique based on the use of previously unknown antireflection and absorbing (ARA) layers that yield ultrahigh contrast reflection imaging of monolayers. The BALM (backside absorbing layer microscopy) technique can achieve the subnanometer-scale vertical resolution, large area, and real-time imaging. Moreover, the inverted optical microscope geometry allows its easy implementation and combination with other techniques. We notably demonstrate the potentiality of BALM by in operando imaging chemical modifications of graphene oxide. The technique can be applied to the deposition, observation, and modification of any nanometer-thick materials.

Published

2017