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1. Collective states of {\alpha}-sexithiophene chains inside boron nitride nanotubes

Author

Juergensen, Sabrina, Marceau, Jean-Baptiste, Mueller, Chantal, Barros, Eduardo B., Kusch, Patryk, Setaro, Antonio, Gaufrès, Etienne, and Reich, Stephanie

Subjects
Physics - Atomic and Molecular Clusters
Abstract

Nanotubes align molecules into one dimensional chains creating collective states through the coupling of the molecular transition dipole moments. These collective excitations have strong fluorescence, narrow bandwidth, and shifted emission/absorption energies. We study the optical properties of {\alpha}-sexithiophene chains in boron nitride nanotubes by combining fluorescence with far- and near-field absorption spectroscopy. The inner nanotube diameter determines the number of encapsulated molecular chains. A single chain of {\alpha}-sexithiophene molecules has an optical absorption and emission spectrum that is red-shifted by almost 300 meV compared to the monomer emission, which is much larger than expected from dipole-dipole coupling. The collective state splits into excitation and emission channels with a Stokes shift of 200 meV for chains with two or more files. Our study emphasises the formation of a delocalized collective state through Coulomb coupling of the transition moments that shows a remarkable tuneability in transition energy.

Published
2024

3. Carbon nanotubes for the optical far-field readout of processes that are mediated by plasmonic near-fields

Author

Glaeske, Mareen, Kusch, Patryk, Mueller, Niclas Sven, and Setaro, Antonio

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

As science progresses at the nanoscopic level, it becomes more and more important to comprehend the interactions taking place at the nanoscale, where optical near-fields play a key role. Their phenomenology differs significantly from the propagative light we experience at the macroscopic level. This is particularly important in applications such as surface-enhanced spectroscopies for single-molecule detection, where often the optimization of the plasmonic structures and surfaces relies on far-field characterizations. The processes dominating in the far-field picture, though, are not the same dominating in the near-field. To highlight this, we resort to very simple metallic systems: Isolated gold nanorods in solution. We show how single-walled nanotubes can be exploited to read out processes occurring at the near-field level around metallic nanoparticles and make the information accessible in the far-field region. This is implemented by monitoring the spectral profile of the enhancement of the photoluminescence and Raman signal of the nanotubes for several excitation wavelengths. Through this excitation-resolved study, we show that the far-field optical read-out detects the transversal and longitudinal dipolar plasmonic oscillations of gold nanorods, whereas the near-field read-out through the nanotubes reveals other mechanisms to dominate. The spectral position of the maximum enhancement of the optical near-field mediated signals are located elsewhere than the far-field bands. This dichotomy between near-field and far-field response should be taken into account when optimizing plasmonic nanostructures for applications such as surface-enhanced spectroscopies.

Published
2021
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4. Synthesis of Multifunctional Charge Transfer Agents: Towards Single Walled Carbon Nanotubes with Defined Covalent Functionality and Preserved {\pi} System

Author

Fiebor, Alphonse, Setaro, Antonio, Achazi, Andreas J., Gordeev, Georgy, Weber, Manuela, Franz, Daniel, Paulus, Beate, Adeli, Mohsen, and Reich, Stephanie

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The attachment of well-defined charge transfer agents to the surface of nanomaterials is an efficient strategy to control their charge density and also to tune their optical, electrical, and physicochemical properties. Particularly interesting are charge transfer agents that either donate or withdraw electrons depending on the arrangements of their building units and that promise a non-destructive attachment to delicate nanomaterials like sp$^2$ compounds. In this work, we rationally synthesize molecular moieties with versatile functionalities. A reactive anchor group allows to attach them to carbon nanotubes as defined charge transfer agents while preserving the tube $\pi$-conjugation. The charge transfer agents were synthesized through the stepwise nucleophilic substitution of either one (monosubstituted series) or two chlorine (disubstituted series) atoms of cyanuric chloride by aniline derivatives containing one, two or three methoxy groups in the para and meta positions. Variation in the number and position of methoxy as an electron transferring group help us to manipulate the electronic and optical properties of the molecular probes and their charge transfer to the SWNTs systematically. The correlation between the optical properties of these molecular probes and their functionality was investigated by experiments and quantum chemical calculations. While the optoelectronic properties of the conjugated charge transfer agents were dominated by the aniline segments, the triazine warrants the ability to nondestructively attach to the surface of SWNTs. This study is one step ahead towards the production of SWNTs with desired optical and electrical properties by covalent $\pi$-preserving functionalization.

Published
2021
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7. Photoswitchable Single-Walled Carbon Nanotubes for Super-Resolution Microscopy in the Near-Infrared

Author

Godin, Antoine, Setaro, Antonio, Gandil, Morgane, Haag, Rainer, Adeli, Mohsen, Reich, Stephanie, and Cognet, Laurent

Subjects
Physics - Biological Physics, Condensed Matter - Other Condensed Matter, Physics - Optics
Abstract

The design of single-molecule photoswitchable emitters was the first milestone toward the advent of single-molecule localization microscopy that sets a new paradigm in the field of optical imaging. Several photoswitchable emitters have been developed but they all fluoresce in the visible or far-red ranges, missing the desirable near-infrared window where biological tissues are most transparent. Moreover, photocontrol of individual emitters in the near-infrared would be highly desirable for elementary optical molecular switches or information storage elements since most communication data transfer protocols are established in this spectral range. Here we introduce a novel type of hybrid nanomaterials consisting of single-wall carbon nanotubes covalently functionalized with photo-switching molecules that are used to control the intrinsic luminescence of the single nanotubes in the near-infrared (beyond 1 $\mu$m). We provide proof-of-concept of localization microscopy based on these bright photoswitchable near-infrared emitters.

Published
2019

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

Author

Allard, Charlotte, Alvarez, Laurent, Bantignies, Jean‐Louis, Bendiab, Nedjma, Cambré, Sofie, Campidelli, Stéphane, Fagan, Jeffrey, Flahaut, Emmanuel, Flavel, Benjamin S., Fossard, F., Gaufrès, Étienne, Heeg, Sebastian, Lauret, Jean‐Sébastien, Loiseau, Annick, Marceau, Jean-Baptiste, Martel, Richard, Marty, Laëtitia, Pichler, Thomas, Voisin, Christophe, Reich, Stéphanie, Setaro, Antonio, Shi, Lei, Wenseleers, Wim, Allard, Charlotte, Alvarez, Laurent, Bantignies, Jean‐Louis, Bendiab, Nedjma, Cambré, Sofie, Campidelli, Stéphane, Fagan, Jeffrey, Flahaut, Emmanuel, Flavel, Benjamin S., Fossard, F., Gaufrès, Étienne, Heeg, Sebastian, Lauret, Jean‐Sébastien, Loiseau, Annick, Marceau, Jean-Baptiste, Martel, Richard, Marty, Laëtitia, Pichler, Thomas, Voisin, Christophe, Reich, Stéphanie, Setaro, Antonio, Shi, Lei, and Wenseleers, Wim

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

9. A New Method for the Synthesis of Triazine Covalent Organic Frameworks at Room Temperature for the Fast Water Purification

Author

Adeli, Mohsen, primary, Salahvarzi, Maryam, additional, Setaro, Antonio, additional, Beyranvand, Siamak Beyranvand, additional, Gordeev, Georgy, additional, Fiebor, Alphonse, additional, Ludwig, Kai, additional, Ghanbari, Reza, additional, Nasiri, Nima, additional, Nemati, Mohammad, additional, Ahmadi, Vahid, additional, Weber, Manuela, additional, Jamshidi, Zahra, additional, Cheng, Chong, additional, and Reich, Stephanie, additional

Published
2024
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15. Synthesis of Multifunctional Charge Transfer Agents: Towards Single Walled Carbon Nanotubes with Defined Covalent Functionality and Preserved �� System

Author

Fiebor, Alphonse, Setaro, Antonio, Achazi, Andreas J., Gordeev, Georgy, Weber, Manuela, Franz, Daniel, Paulus, Beate, Adeli, Mohsen, and Reich, Stephanie

Subjects
Mesoscale and Nanoscale Physics (cond-mat.mes-hall), FOS: Physical sciences
Abstract

The attachment of well-defined charge transfer agents to the surface of nanomaterials is an efficient strategy to control their charge density and also to tune their optical, electrical, and physicochemical properties. Particularly interesting are charge transfer agents that either donate or withdraw electrons depending on the arrangements of their building units and that promise a non-destructive attachment to delicate nanomaterials like sp$^2$ compounds. In this work, we rationally synthesize molecular moieties with versatile functionalities. A reactive anchor group allows to attach them to carbon nanotubes as defined charge transfer agents while preserving the tube $��$-conjugation. The charge transfer agents were synthesized through the stepwise nucleophilic substitution of either one (monosubstituted series) or two chlorine (disubstituted series) atoms of cyanuric chloride by aniline derivatives containing one, two or three methoxy groups in the para and meta positions. Variation in the number and position of methoxy as an electron transferring group help us to manipulate the electronic and optical properties of the molecular probes and their charge transfer to the SWNTs systematically. The correlation between the optical properties of these molecular probes and their functionality was investigated by experiments and quantum chemical calculations. While the optoelectronic properties of the conjugated charge transfer agents were dominated by the aniline segments, the triazine warrants the ability to nondestructively attach to the surface of SWNTs. This study is one step ahead towards the production of SWNTs with desired optical and electrical properties by covalent $��$-preserving functionalization.

Published
2021
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25. Fluorescent Polymer-Single-Walled Carbon Nanotube Complexes with Charged and Noncharged Dendronized Perylene Bisimides for Bioimaging Studies

Author

Huth, Katharina, primary, Glaeske, Mareen, additional, Achazi, Katharina, additional, Gordeev, Georgy, additional, Kumar, Shiv, additional, Arenal, Raúl, additional, Sharma, Sunil K., additional, Adeli, Mohsen, additional, Setaro, Antonio, additional, Reich, Stephanie, additional, and Haag, Rainer, additional

Published
2018
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27. Optical properties of carbon nanotubes coated with orthogonal dipole switches

Author

SETARO, ANTONIO, Stefanie K. Kreft, Michael Åxman Petersen, Mogens Brøndsted Nielsen, Stephanie Reich, Setaro, Antonio, Stefanie K., Kreft, Michael Åxman, Petersen, Mogens Brøndsted, Nielsen, and Stephanie, Reich

Subjects
orthogonal molecular switches, smart nanotubes coatings, carbon nanotubes functionalization, dipole switches
Abstract

To disentangle the process of direct optical excitation of carbon nanotubes coated with photochromic switches from the isomerization of the latters, we functionalized single walled carbon nanotubes with the orthogonal dipole switching moiety dihydroazulene/vinylheptafulvene (DHA/VHF). The orthogonality of the switch decouples the kinetics of the dipole change from the optical excitation of the nanotubes, allowing the independent investigations of the excitation of tubes and switch. DHA to VHF conversion triggered by exposures to UV photons. The back isomerization is thermally activated and cannot be driven optically.

Published
2014

28. Carbon nanotube chirality enrichment through chirality-selective precipitation

Author

Setaro, Antonio, Blümmel, Pascal, Witt, Markus U., Narula, Rohit, and Reich, Stephanie

Subjects
SWNTs, selective enrichment, colloidal systems
Abstract

The interaction with surfactants changes from one carbon nanotube species to the other. We used this to replace non-ionic surfactants by ionic ones. By fine-tuning the replacement conditions, we covered some specific nanotubes with non-ionic surfactants and the others with ionic ones. Addition of salt triggers precipitation of the species suspended by the ionic surfactant; this effectively leads to chiral selective enrichment of a carbon nanotube suspension. We hence produce an (8,4)-enriched suspension by replacing a polyglycerol-based custom amphiphile with the commercial SDBS and salting with NaCl.

Published
2016

32. Preserving π-conjugation in covalently functionalized carbon nanotubes for optoelectronic applications

Author

Setaro, Antonio, primary, Adeli, Mohsen, additional, Glaeske, Mareen, additional, Przyrembel, Daniel, additional, Bisswanger, Timo, additional, Gordeev, Georgy, additional, Maschietto, Federica, additional, Faghani, Abbas, additional, Paulus, Beate, additional, Weinelt, Martin, additional, Arenal, Raul, additional, Haag, Rainer, additional, and Reich, Stephanie, additional

Published
2017
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33. Selective interaction between nanotubes and perylene-based surfactant

Author

Friederike Ernst, Sebastian Heeg, Timm Heek, Rainer Haag, Stephanie Reich, SETARO, ANTONIO, Friederike, Ernst, Sebastian, Heeg, Timm, Heek, Setaro, Antonio, Rainer, Haag, and Stephanie, Reich

Abstract

We recently reported a significant deviation in the photoluminescence intensities of HiPco nanotubes solubilized with a perylene-based surfactant, C16, compared to bile salt surfactants. For C16, the photoluminescence emission of chiralities (9,5), (10,3), and (11,1) is enhanced by up to 430%. Resonant Raman spectroscopy is less sensitive to bundling state and also yields disparate chirality intensity ratios: The (11,0) zigzag tube signal increases by 100% compared to (8,6), (9,4), and (10,2) after suspension with C16. We also report the change in photoluminescence intensity distribution after the swelling of bile salt suspended nanotubes with a series of small organic chromophores in DCM. These changes are attributed to chromophore-induced surfactant reorganization, resulting in better nanotube individualization. The chirality for which the PL intensity is most enhanced is (11,1) for all chromophores, a chirality also increased by 300% in the C16-solubilized sample. Conjointly, these measurements indicate that both preferential solubilization and enhanced debundling contribute to the PL intensity distribution in the C16-solubilized nanotube sample. This has wide ranging implications for the design of chirally selective surfactants and the demonstration of their selectivity, which is typically only shown through luminescence measurements.

Published
2013

34. Chiral selectivity of polyglycerol-based amphiphiles incorporating different aromatic cores

Author

Setaro, Antonio, Popeney, Christopher S., Witt, M. U., Bluemmel, P., Gläske, Mareen, Haag, Rainer, and Reich, Stephanie

Subjects
chirality selection, carbon nanotubes, solubilization, surfactants
Abstract

Customized polyglycerol-based surfactants incorporating different aromatic cores are used to isolate and suspend carbon nanotubes in water. Different cores yield suspension with distinct chiral species distribution. Increasing the number of the phenyl rings connecting head and tail, the dispersion of the semiconducting species becomes sharper toward the nanotubes with bigger family index.

Published
2015

35. Designing a spiropyran-based molecular switch for carbon nanotube functionalization: Influence of anchor groups and tube-switch separation

Author

Pascal Bluemmel, Chandan Maity, Stefan Hecht, Stephanie Reich, SETARO, ANTONIO, Pascal, Bluemmel, Setaro, Antonio, Chandan, Maity, Stefan, Hecht, and Stephanie, Reich

Abstract

Molecular switch compounds, consisting of aromatic anchoring groups connected to a spiropyran moiety, are exploited for carbon nanotube functionalization. The effect of the different anchor groups on sample distribution and debundling efficiency is investigated as well as the influence of the anchor–switch distance and hence tube–switch separation. Morphologically similar anchor groups result in similar chiral compositions of the sample. With smaller separation, the tube–switch interaction strength increases as well as the lifetime of the ring opened isomer.

Published
2012
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36. Light Emission Properties of SnO2 Nanowires for Applications in Gas Sensing

Author

S. Lettieri, A. Bismuto, C. Baratto, E. Comini, S. Todros, G. Sberveglieri, SETARO, ANTONIO, MADDALENA, PASQUALINO, S., Lettieri, Setaro, Antonio, A., Bismuto, Maddalena, Pasqualino, C., Baratto, E., Comini, S., Todro, and G., Sberveglieri

Subjects
TIN OXIDE, PHOTOLUMINESCENCE PROPERTIES, SENSORS, OPTICAL-PROPERTIES, NANOBELTS
Abstract

Chemical sensing of gas molecules adsorbed on the tin dioxide nanowires by modulation of their photoluminescence efficiency is investigated. It is shown that adsorption of nitrogen dioxide at the ppm and sub-ppm level leads to quenching of the photoluminescence emission and that larger sensitivities are obtained at room temperature and at low (order of few ppm) nitrogen dioxide concentrations. The luminescence efficiency is found to decrease upon heating of the sample without appreciable variations of the emission spectrum. Experiments performed during heating and cooling of samples in controlled environment stress the role played by oxidation in the luminescence properties.

Published
2008

41. Nanoplasmonic Colloidal Suspensions for the Enhancement of the Single Walled Carbon Nanotubes Luminescent Emission

Author

Gläske, Mareen and Setaro, Antonio

Subjects
Condensed Matter::Materials Science, Physics::Optics
Abstract

Aiming to enhance the luminescence yield of carbon nanotubes, we introduce a new class of hybrid nanoplasmonic colloidal systems (π-hybrids). Nanotubes dispersed in gold nanorod colloidal suspensions yield hybrid structures exhibiting enhanced luminescence up to a factor of 20. The novelty of the proposed enhancement mechanism relies on including metal proximity effects in addition to its localized surface plasmons. This simple, robust and flexible technique enhances the luminescence of nanotubes with chiralities whose enhancement has never reported before, for example the (8,4) tube.

Published
2013

42. Controlled reversible debundling of single-walled carbon nanotubes by photo- switchable dendritic surfactants

Author

Kördel, Christian, Setaro, Antonio, Blümmel, Pascal, Popeney, Chris S., Reich, Stephanie, and Haag, Rainer

Abstract

Stimulus responsive surfactants based on dendritic glycerol azobenzene conjugates were used to solubilize and debundle single-walled carbon nanotubes in aqueous media. Their debundling property as well as their reaggregation behavior upon irradiation with light was examined and light triggered reversible bundling and precipitation are shown.

Published
2012

44. Opto-mechanical effects in nematic and cholesteric liquid crystals

Author

Setaro, Antonio

Abstract

Il lavoro si inserisce in un programma di ricerca teso a mettere in evidenza alcuni fenomeni termodinamici di non equilibrio proibiti per ragioni di simmetria nei materiali normali, ma permessi nei materiali chirali. Questi fenomeni coinvolgono l’accoppiamento tra una forza termodinamica di tipo polare e un flusso di tipo assiale. La relativa costante di accoppiamento è quindi uno pseudo-scalare. Si tratta, in generale, di effetti molto deboli e difficili da rivelare, poiché il grado di chiralità dei materiali formati da molecole chirali è, in genere, molto piccolo. I cristalli liquidi colesterici, invece, possiedono una chiralità di tipo strutturale, che è molti ordini di grandezza più grande della chiralità di origine molecolare e sono quindi materiali ideali per l’osservazione sperimentale di tali effetti. Il più noto tra gli effetti termodinamici legati alla chiralità dei colesterici è l’effetto Lehman, che è l’oggetto di studio di questo lavoro. L’effetto consiste nella rotazione della struttura colesterica indotta dall’applicazione di un gradiente di temperatura o di un campo elettrostatico. Sebbene il fenomeno sia stato osservato al microscopio da Lehman fin dal 1900, ogni tentativo di misura quantitativa è finora fallito, per via di effetti concomitanti, come l’effetto flesso-elettrico, legati al difficile controllo della geometria sperimentale (usualmente micro-gocce di colesterico in ambiente isotropo). L’idea di base del lavoro è quello di utilizzare un fascio di luce focalizzato per creare la “gocciolina” colesterica in un ambiente nematico che abbia una simmetria cilindrica attorno alla direzione della velocità angolare di rotazione indotta. La luce svolge un ruolo puramente ausiliario, che permette, però, il controllo accurato della geometria del profilo colesterico, in modo da poter escludere gli effetti concorrenti.

Published
2006
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