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1. Disclosing Early Excited State Relaxation Events in Prototypical Linear Carbon Chains

Author

Kabaciński, Piotr, Marabotti, Pietro, Serafini, Patrick, Fazzi, Daniele, Cerullo, Giulio, Casari, Carlo S., and Zavelani-Rossi, Margherita

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

One-dimensional (1D) linear nanostructures comprising sp-hybridized carbon atoms, as derivatives of the prototypical allotrope known as carbyne, are predicted to possess outstanding mechanical, thermal, and electronic properties. Despite recent advances in the synthesis, their chemical and physical properties are still poorly understood. Here, we investigate the photophysics of a prototypical polyyne (i.e., 1D chain with alternating single and triple carbon bonds), as the simplest model of finite carbon wire and as a prototype of sp-carbon-based chains. We perform transient absorption experiments with high temporal resolution (<30 fs) on monodispersed hydrogen-capped hexayne H$-$(C$\equiv$C)$_6-$H synthesized by laser ablation in liquid. With the support of detailed computational studies based on ground state density functional theory (DFT) and excited state time-dependent (TD)-DFT calculations, we provide a comprehensive description of the excited state relaxation processes at early times following photoexcitation. We show that the internal conversion from a bright high-energy singlet excited state to a low-lying singlet dark state is ultrafast and takes place with a 200-fs time constant, followed by thermalization on the picosecond timescale and decay of the low-energy singlet state with hundreds of picoseconds time constant. We also show that the timescale of these processes does not depend on the end groups capping the sp-carbon chain. The understanding of the primary photo-induced events in polyynes is of key importance both for fundamental knowledge and for potential optoelectronic and light-harvesting applications of low dimensional nanostructured carbon-based materials., Comment: 24 pages, 6 figures

Published
2023
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2. Fractal Carbon nanofoams by nanosecond and femtosecond pulsed-laser deposition

Author

Pazzaglia, Andrea, Maffini, Alessandro, Orecchia, Davide, Zavelani-Rossi, Margherita, and Passoni, Matteo

Subjects
Condensed Matter - Materials Science
Abstract

We report on an investigation on the properties of ultra-low density, fractal, Carbon nanofoams fabricated with the nanosecond and femtosecond pulsed-laser deposition (PLD) techniques. We measure through innovative techniques the foam mean density and the properties of the fractal aggregates composing the film (i.e. nanoparticles diameter, fractal dimension, and gyration radius) as a function of several PLD process parameters, namely the background gas pressure and the laser pulse characteristics (energy, time duration, repetition rate). We discuss the experimental observation on the basis of the existing literature, and we propose an analytical equation, based on the fractal scaling law, to predict the foam density from the aggregates properties. Finally, we use analytical arguments to explain the observed trends in the nanofoam density with respect to the process parameters, useful to gain new insights on the nanofoam growth and to guide experimental work in fabricating ultra-low density films with precisely controlled properties., Comment: The publication was flawed with some technical errors which invalidate the main results and conclusions

Published
2020

3. Real‐Time Detection of Coherent Vibrational Dynamics in TiN Films.

Author

Iudica, Andrea, Rotta Loria, Silvia, Mancarella, Cristina, Mascaretti, Luca, Naldoni, Alberto, Cerullo, Giulio, Li Bassi, Andrea, and Zavelani‐Rossi, Margherita

Subjects
TITANIUM nitride, REFLECTANCE spectroscopy, PHONONS, EXCITED states, PLASMONICS
Abstract

Titanium nitride (TiN) has recently gained considerable interest because of its remarkable plasmonic properties and for its strong electron–phonon (e–ph) coupling, leading to extremely fast (<100 fs) electron‐lattice cooling. Here, the generation of coherent phonons in TiN films is reported, along with their real‐time detection by means of broadband transient reflection spectroscopy with sub‐15‐fs temporal resolution. The measurements show damped oscillations, superimposed to excited state electronic decay. A coherent vibrational mode is revealed, with ≈10 THz frequency ascribed to defect‐activated normal modes, consistent with spontaneous Raman scattering data, and a dephasing time of ≈250 fs. Two π‐phase flips are also observed located at photon energies corresponding to interband optical transitions (at 3.2 and 2.5 eV), ascribed to selective coupling of the vibrational mode to these transitions; the energy modulation induced by the vibrational coherence is evaluated. It is shown that the displacive excitation of coherent phonons model describes the coherent response in terms of temporal behavior and of spectral amplitude profile. Overall, a comprehensive and detailed analysis of coherent phonons in TiN films, so far undected, is provided and relevant information on TiN photo‐physical properties, potentially useful for its applications, is given. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Plasmonics in heavily-doped semiconductor nanocrystals

Author

Scotognella, Francesco, Della Valle, Giuseppe, Kandada, Ajay Ram Srimath, Zavelani-Rossi, Margherita, Comin, Alberto, Longhi, Stefano, Manna, Liberato, Lanzani, Guglielmo, and Tassone, Francesco

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Heavily-doped semiconductor nanocrystals characterized by a tunable plasmonic band have been gaining increasing attention recently. Herein, we introduce this type of materials focusing on their structural and photo physical properties. Beside their continuous-wave plasmonic response, depicted both theoretically and experimentally, we also review recent results on their transient, ultrafast response. This was successfully interpreted by adapting models of the ultrafast response of gold nanoparticles., Comment: 20 pages review paper, 15 figures

Published
2013
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7. The coherent dynamics of photoexcited green fluorescent proteins

Author

Cinelli, Riccardo A. G., Tozzini, Valentina, Pellegrini, Vittorio, Beltram, Fabio, Cerullo, Giulio, Zavelani-Rossi, Margherita, De Silvestri, Sandro, Tyagi, Mudit, and Giacca, Mauro

Subjects
Physics - Biological Physics, Quantitative Biology
Abstract

The coherent dynamics of vibronic wave packets in the green fluorescent protein is reported. At room temperature the non-stationary dynamics following impulsive photoexcitation displays an oscillating optical transmissivity pattern with components at 67 fs (497 cm-1) and 59 fs (593 cm-1). Our results are complemented by ab initio calculations of the vibrational spectrum of the chromophore. This analysis shows the interplay between the dynamics of the aminoacidic structure and the electronic excitation in the primary optical events of green fluorescent proteins., Comment: accepted for publication in Physical Review Letters

Published
2001
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10. Towards compact laser-driven accelerators: exploring the potential of advanced double-layer targets

Author

Maffini, Alessandro, primary, Mirani, Francesco, additional, Galbiati, Marta, additional, Ambrogioni, Kevin, additional, Gatti, Francesco, additional, Galli De Magistris, Maria Sole, additional, Vavassori, Davide, additional, Orecchia, Davide, additional, Dellasega, David, additional, Russo, Valeria, additional, Zavelani-Rossi, Margherita, additional, and Passoni, Matteo, additional

Published
2023
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13. Red-emissive carbon quantum dots enable high efficiency luminescent solar concentrators

Author

Liu, Guiju, Zavelani-Rossi, Margherita, Han, Guangting, Zhao, Haiguang, Vomiero, Alberto, Liu, Guiju, Zavelani-Rossi, Margherita, Han, Guangting, Zhao, Haiguang, and Vomiero, Alberto

Abstract

Luminescent solar concentrators (LSCs) are large-area sunlight collectors for efficient solar-to-electricity conversion. The key point for highly efficient LSCs is the choice of fluorophores, which need to have broad absorption, high quantum yield and large Stokes shift. Among various fluorophores, carbon quantum dots (C-dots) hold great promise as eco-friendly alternatives to heavy-metal-containing quantum dots (QDs) due to their adjustable absorption and emission spectra, non-toxicity, low cost and eco-friendly synthetic methods. However, due to the limited absorption band and relatively low quantum yield in the red region, it is a challenge to obtain efficient LSCs based on C-dots. Here, we demonstrated highly efficient LSCs based on red-emissive C-dots. The as-synthesized C-dots have a cubic structure, broad absorption covering 300-600 nm, and red emission (peak located at 595 nm), with a high quantum yield of ∼65% and a large Stokes shift of 0.45 eV. Transient absorption experiments of the C-dots revealed the ultrafast formation of the broad emissive state (1 ps). Based on the excellent optical properties of the C-dots, the as-prepared large-area LSC (10 × 10 × 0.52 cm3) exhibited an optimized external optical efficiency of 4.81% and a power conversion efficiency of 2.41% under natural sun irradiation (70 mW cm−2). Furthermore, a tandem LSC using green-emissive C-dots (top layer) and red-emissive C-dots (bottom layer) as fluorophores exhibited an external optical efficiency as high as 6.78%. These findings demonstrate the possibility of using eco-friendly carbon-based nanomaterials for highly efficient large-area LSCs., Validerad;2023;Nivå 2;2023-07-20 (sofila);Funder: Ca‘ Foscari University of Venice; Shandong Natural Science Funds for Distinguished Young Scholar (ZR2020JQ20); ÅFORSK Foundation; National Key Research and Development Program of China (2019YFE0121600)

Published
2023
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15. Tuning the transient opto-electronic properties of few-layer MoS2 nanosheets via substrate nano-patterning

Author

Camellini Andrea, Mennucci Carlo, Mazzanti Andrea, Martella Christian, Lamperti Alessio, Molle Alessandro, Buatier de Mongeot Francesco, Della Valle Giuseppe, and Zavelani-Rossi Margherita

Subjects
Physics, QC1-999
Abstract

We study the optical properties of Molybdenum Disulphide nanosheets deposited by chemical vapor deposition onto a nanopatterned substrate endowed with a uniaxial corrugation. The uniaxial nanocorrugation leads to a polarization dependence in steady state and an anisotropic relaxation around the C resonance. Finite element numerical simulations allow to better disclose the scenario. Our findings point towards new possibilities for the manipulation of the optical properties of two-dimensional transition metal dichalcogenides via substrate nanopatterning.

Published
2020
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17. Tunable physics through coordination chemistry: formation on oxide surface of Ti and Al chelates with 3-hydroxyflavone capable of electron injection and light emission

Author

Solomon, Getachew, Landström, Anton, Rotta Loria, Silvia, Bolli, Eleonora, Mezzetti, Alberto, Facibeni, Anna, Cattarin, Sandro, Mezzi, Alessio, Protti, Stefano, Kaciulis, Saulius, Zavelani-Rossi, Margherita, Concina, Isabella, Solomon, Getachew, Landström, Anton, Rotta Loria, Silvia, Bolli, Eleonora, Mezzetti, Alberto, Facibeni, Anna, Cattarin, Sandro, Mezzi, Alessio, Protti, Stefano, Kaciulis, Saulius, Zavelani-Rossi, Margherita, and Concina, Isabella

Abstract

The optoelectronic features of 3-hydroxyflavone (3HF) self-assembled on the surface of an n-type semiconducting metal oxide (TiO2) and an insulator (Al2O3) are herein investigated. 3HF molecules use the coordinatively unsaturated metal ions present on the oxide surface to form metal complexes, which exhibit different behaviors upon light irradiation, depending on the nature of the metal ion. Specifically, we show that the photoluminescence of the surface species can be modulated according to the chemical properties of the complex (i.e. the binding metal ion), resulting in solid-state emitters in a high quantum yield (about 15%). Furthermore, photoinduced charge injection can be promoted or inhibited, providing a multifunctional hybrid system., Validerad;2023;Nivå 2;2023-02-10 (joosat);Licens fulltext: CC BY License

Published
2022
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19. Evidence for the band edge exciton of CuInS2 Nanocrystals enables record efficient large-area Luminescent Solar Concentrators

Author

Anand, Abhinav, primary, Brovelli, Sergio, additional, Gariano, Graziella, additional, Camellini, Andrea, additional, Gandini, Marina, additional, Brescia, Rosaria, additional, L. Zaffalon, Matteo, additional, Bruni, Francesco, additional, Pinchetti, Valerio, additional, Zavelani-Rossi, Margherita, additional, Meinardi, Francesco, additional, A. Crooker, Scott, additional, and Capitani, Chiara, additional

Published
2022
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21. Tunable physics through coordination chemistry: formation on oxide surface of Ti and Al chelates with 3-hydroxyflavone capable of electron injection and light emission

Author

Solomon, Getachew, primary, Landström, Anton, additional, Rotta Loria, Silvia, additional, Bolli, Eleonora, additional, Mezzetti, Alberto, additional, Facibeni, Anna, additional, Cattarin, Sandro, additional, Mezzi, Alessio, additional, Protti, Stefano, additional, Kaciulis, Saulius, additional, Zavelani-Rossi, Margherita, additional, and Concina, Isabella, additional

Published
2022
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23. Optical and Magneto-Optical Properties of Donor-Bound Excitons in Vacancy-Engineered Colloidal Nanocrystals

Author

Carulli, Francesco, primary, Pinchetti, Valerio, additional, Zaffalon, Matteo L., additional, Camellini, Andrea, additional, Rotta Loria, Silvia, additional, Moro, Fabrizio, additional, Fanciulli, Marco, additional, Zavelani-Rossi, Margherita, additional, Meinardi, Francesco, additional, Crooker, Scott A., additional, and Brovelli, Sergio, additional

Published
2021
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24. Optical and Magneto-Optical Properties of Donor-Bound Excitons in Vacancy-Engineered Colloidal Nanocrystals

Author

Carulli, F, Pinchetti, V, Zaffalon, M, Camellini, A, Rotta Loria, S, Moro, F, Fanciulli, M, Zavelani-Rossi, M, Meinardi, F, Crooker, S, Brovelli, S, Carulli, Francesco, Pinchetti, Valerio, Zaffalon, Matteo L, Camellini, Andrea, Rotta Loria, Silvia, Moro, Fabrizio, Fanciulli, Marco, Zavelani-Rossi, Margherita, Meinardi, Francesco, Crooker, Scott A, Brovelli, Sergio, Carulli, F, Pinchetti, V, Zaffalon, M, Camellini, A, Rotta Loria, S, Moro, F, Fanciulli, M, Zavelani-Rossi, M, Meinardi, F, Crooker, S, Brovelli, S, Carulli, Francesco, Pinchetti, Valerio, Zaffalon, Matteo L, Camellini, Andrea, Rotta Loria, Silvia, Moro, Fabrizio, Fanciulli, Marco, Zavelani-Rossi, Margherita, Meinardi, Francesco, Crooker, Scott A, and Brovelli, Sergio

Abstract

Controlled insertion of electronic states within the band gap of semiconductor nanocrystals (NCs) is a powerful tool for tuning their physical properties. One compelling example is II-VI NCs incorporating heterovalent coinage metals in which hole capture produces acceptor-bound excitons. To date, the opposite donor-bound exciton scheme has not been realized because of the unavailability of suitable donor dopants. Here, we produce a model system for donor-bound excitons in CdSeS NCs engineered with sulfur vacancies (VS) that introduce a donor state below the conduction band (CB), resulting in long-lived intragap luminescence. VS-localized electrons are almost unaffected by trapping, and suppression of thermal quenching boosts the emission efficiency to 85%. Magneto-optical measurements indicate that the VS are not magnetically coupled to the NC bands and that the polarization properties are determined by the spin of the valence-band photohole, whose spin flip is massively slowed down due to suppressed exchange interaction with the donor-localized electron.

Published
2021

25. Intrinsic and Extrinsic Exciton Recombination Pathways in AgInS2 Colloidal Nanocrystals

Author

Zaffalon, M, Pinchetti, V, Camellini, A, Vikulov, S, Capitani, C, Bai, B, Xu, M, Meinardi, F, Zhang, J, Manna, L, Zavelani-Rossi, M, Crooker, S, Brovelli, S, Zaffalon, Matteo L., Pinchetti, Valerio, Camellini, Andrea, Vikulov, Sergey, Capitani, Chiara, Bai, Bing, Xu, Meng, Meinardi, Francesco, Zhang, Jiatao, Manna, Liberato, Zavelani-Rossi, Margherita, Crooker, Scott A., Brovelli, Sergio, Zaffalon, M, Pinchetti, V, Camellini, A, Vikulov, S, Capitani, C, Bai, B, Xu, M, Meinardi, F, Zhang, J, Manna, L, Zavelani-Rossi, M, Crooker, S, Brovelli, S, Zaffalon, Matteo L., Pinchetti, Valerio, Camellini, Andrea, Vikulov, Sergey, Capitani, Chiara, Bai, Bing, Xu, Meng, Meinardi, Francesco, Zhang, Jiatao, Manna, Liberato, Zavelani-Rossi, Margherita, Crooker, Scott A., and Brovelli, Sergio

Abstract

Ternary I-III-VI2 nanocrystals (NCs), such as AgInS2 and CuInS2, are garnering interest as heavy-metal-free materials for photovoltaics, luminescent solar concentrators, LEDs, and bioimaging. The origin of the emission and absorption properties in this class of NCs is still a subject of debate. Recent theoretical and experimental studies revealed that the characteristic Stokes-shifted and long-lived luminescence of stoichiometric CuInS2 NCs arises from the detailed structure of the valence band featuring two sublevels with different parity. The same valence band substructure is predicted to occur in AgInS2 NCs, yet no experimental confirmation is available to date. Here, we use complementary spectroscopic, spectro-electrochemical, and magneto-optical investigations as a function of temperature to investigate the band structure and the excitonic recombination mechanisms in stoichiometric AgInS2 NCs. Transient transmission measurements reveal the signatures of two subbands with opposite parity, and photoluminescence studies at cryogenic temperatures evidence a dark state emission due to enhanced exchange interaction, consistent with the behavior of stoichiometric CuInS2 NCs. Lowering the temperature as well as applying reducing electrochemical potentials further suppress electron trapping, which represents the main nonradiative channel for exciton decay, leading to nearly 100% emission efficiency.

Published
2021

26. Evidence for the Band-Edge Exciton of CuInS2 Nanocrystals Enables Record Efficient Large-Area Luminescent Solar Concentrators

Author

Anand, A, Zaffalon, M, Gariano, G, Camellini, A, Gandini, M, Brescia, R, Capitani, C, Bruni, F, Pinchetti, V, Zavelani‐rossi, M, Meinardi, F, Crooker, S, Brovelli, S, Anand, Abhinav, Zaffalon, Matteo L., Gariano, Graziella, Camellini, Andrea, Gandini, Marina, Brescia, Rosaria, Capitani, Chiara, Bruni, Francesco, Pinchetti, Valerio, Zavelani‐Rossi, Margherita, Meinardi, Francesco, Crooker, Scott A., Brovelli, Sergio, Anand, A, Zaffalon, M, Gariano, G, Camellini, A, Gandini, M, Brescia, R, Capitani, C, Bruni, F, Pinchetti, V, Zavelani‐rossi, M, Meinardi, F, Crooker, S, Brovelli, S, Anand, Abhinav, Zaffalon, Matteo L., Gariano, Graziella, Camellini, Andrea, Gandini, Marina, Brescia, Rosaria, Capitani, Chiara, Bruni, Francesco, Pinchetti, Valerio, Zavelani‐Rossi, Margherita, Meinardi, Francesco, Crooker, Scott A., and Brovelli, Sergio

Abstract

Ternary I-III-VI2 nanocrystals (NCs), such as CuInS2, are receiving attention as heavy-metals-free materials for solar cells, luminescent solar concentrators (LSCs), LEDs, and bio-imaging. The origin of the optical properties of CuInS2 NCs are however not fully understood. A recent theoretical model suggests that their characteristic Stokes-shifted and long-lived luminescence arises from the structure of the valence band (VB) and predicts distinctive optical behaviours in defect-free NCs: the quadratic dependence of the radiative decay rate and the Stokes shift on the NC radius. If confirmed, this would have crucial implications for LSCs as the solar spectral coverage ensured by low-bandgap NCs would be accompanied by increased re-absorption losses. Here, by studying stoichiometric CuInS2 NCs, it is revealed for the first time the spectroscopic signatures predicted for the free band-edge exciton, thus supporting the VB-structure model. At very low temperatures, the NCs also show dark-state emission likely originating from enhanced electron-hole spin interaction. The impact of the observed optical behaviours on LSCs is evaluated by Monte Carlo ray-tracing simulations. Based on the emerging device design guidelines, optical-grade large-area (30×30 cm2) LSCs with optical power efficiency (OPE) as high as 6.8% are fabricated, corresponding to the highest value reported to date for large-area devices.

Published
2020

27. Gram-scale synthesis of carbon quantum dots with a large Stokes shift for the fabrication of eco-friendly and high-efficiency luminescent solar concentrators

Author

Zhao, Haiguang, primary, Liu, Guiju, additional, You, Shujie, additional, Camargo, Franco V. A., additional, Zavelani-Rossi, Margherita, additional, Wang, Xiaohan, additional, Sun, Changchun, additional, Liu, Bing, additional, Zhang, Yuanming, additional, Han, Guangting, additional, Vomiero, Alberto, additional, and Gong, Xiao, additional

Published
2021
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28. Intrinsic and Extrinsic Exciton Recombination Pathways in AgInS 2 Colloidal Nanocrystals

Author

Zaffalon, Matteo L., primary, Pinchetti, Valerio, additional, Camellini, Andrea, additional, Vikulov, Sergey, additional, Capitani, Chiara, additional, Bai, Bing, additional, Xu, Meng, additional, Meinardi, Francesco, additional, Zhang, Jiatao, additional, Manna, Liberato, additional, Zavelani-Rossi, Margherita, additional, Crooker, Scott A., additional, and Brovelli, Sergio, additional

Published
2021
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30. Ultrafast Photonics in Polymer Nanostructures

Author

Carvelli, Marco, primary, Lanzani, Guglielmo, additional, Perissinotto, Stefano, additional, Zavelani-Rossi, Margherita, additional, Gigli, Giuseppe, additional, Salerno, Marco, additional, and Troisi, Luca, additional

Published
2009
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31. Geometrical Engineering of Giant Optical Dichroism in Rippled MoS 2 Nanosheets

Author

Mennucci, Carlo, primary, Mazzanti, Andrea, additional, Martella, Christian, additional, Lamperti, Alessio, additional, Bhatnagar, Mukul, additional, Lo Savio, Roberto, additional, Repetto, Luca, additional, Camellini, Andrea, additional, Zavelani‐Rossi, Margherita, additional, Molle, Alessandro, additional, Buatier de Mongeot, Francesco, additional, and Della Valle, Giuseppe, additional

Published
2020
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35. Evidence for the Band‐Edge Exciton of CuInS2 Nanocrystals Enables Record Efficient Large‐Area Luminescent Solar Concentrators

Author

Anand, Abhinav, primary, Zaffalon, Matteo L., additional, Gariano, Graziella, additional, Camellini, Andrea, additional, Gandini, Marina, additional, Brescia, Rosaria, additional, Capitani, Chiara, additional, Bruni, Francesco, additional, Pinchetti, Valerio, additional, Zavelani‐Rossi, Margherita, additional, Meinardi, Francesco, additional, Crooker, Scott A., additional, and Brovelli, Sergio, additional

Published
2019
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37. Quantized Electronic Doping towards Atomically Controlled “Charge-Engineered” Semiconductor Nanocrystals

Author

Capitani, Chiara, primary, Pinchetti, Valerio, additional, Gariano, Graziella, additional, Santiago-González, Beatriz, additional, Santambrogio, Carlo, additional, Campione, Marcello, additional, Prato, Mirko, additional, Brescia, Rosaria, additional, Camellini, Andrea, additional, Bellato, Fulvio, additional, Carulli, Francesco, additional, Anand, Abhinav, additional, Zavelani-Rossi, Margherita, additional, Meinardi, Francesco, additional, Crooker, Scott A., additional, and Brovelli, Sergio, additional

Published
2019
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38. Excitonic pathway to photoinduced magnetism in colloidal nanocrystals with nonmagnetic dopants

Author

Pinchetti, V, Di, Q, Lorenzon, M, Camellini, A, Fasoli, M, Zavelani-Rossi, M, Meinardi, F, Zhang, J, Crooker, S, Brovelli, S, Pinchetti, Valerio, Di, Qiumei, Lorenzon, Monica, Camellini, Andrea, Fasoli, Mauro, Zavelani-Rossi, Margherita, Meinardi, Francesco, Zhang, Jiatao, Crooker, Scott A., Brovelli, Sergio, Pinchetti, V, Di, Q, Lorenzon, M, Camellini, A, Fasoli, M, Zavelani-Rossi, M, Meinardi, F, Zhang, J, Crooker, S, Brovelli, S, Pinchetti, Valerio, Di, Qiumei, Lorenzon, Monica, Camellini, Andrea, Fasoli, Mauro, Zavelani-Rossi, Margherita, Meinardi, Francesco, Zhang, Jiatao, Crooker, Scott A., and Brovelli, Sergio

Abstract

Electronic doping of colloidal semiconductor nanostructures holds promise for future device concepts in optoelectronic and spin-based technologies. Ag+ is an emerging electronic dopant in iii-v and ii-vi nanostructures, introducing intragap electronic states optically coupled to the host conduction band. With its full 4d shell Ag+ is nonmagnetic, and the dopant-related luminescence is ascribed to decay of the conduction-band electron following transfer of the photoexcited hole to Ag+. This optical activation process and the associated modification of the electronic configuration of Ag+ remain unclear. Here, we trace a comprehensive picture of the excitonic process in Ag-doped CdSe nanocrystals and demonstrate that, in contrast to expectations, capture of the photohole leads to conversion of Ag+ to paramagnetic Ag2+. The process of exciton recombination is thus inextricably tied to photoinduced magnetism. Accordingly, we observe strong optically activated magnetism and diluted magnetic semiconductor behaviour, demonstrating that optically switchable magnetic nanomaterials can be obtained by exploiting excitonic processes involving nonmagnetic impurities.

Published
2018

39. Geometrical Engineering of Giant Optical Dichroism in Rippled MoS2 Nanosheets.

Author

Mennucci, Carlo, Mazzanti, Andrea, Martella, Christian, Lamperti, Alessio, Bhatnagar, Mukul, Lo Savio, Roberto, Repetto, Luca, Camellini, Andrea, Zavelani‐Rossi, Margherita, Molle, Alessandro, Buatier de Mongeot, Francesco, and Della Valle, Giuseppe

Subjects
DICHROISM, OPTICAL engineering, LINEAR dichroism, CHEMICAL vapor deposition, ION beams
Abstract

A cost effective method to tailor the optical response of large‐area nanosheets of 2D materials is described. A reduced effective metalayer model is introduced to capture the key‐role of the out‐of‐plane component of the dielectric tensor. Such a model indicates that the optical extinction of 2D materials can be strongly altered by controlling the geometry at the local (i.e., subwavelength) scale. In particular, a giant linear optical dichroism at normal incidence is demonstrated, with major features around the excitonic peaks, that can be tailored by acting on the average curvature and slope of the nanosheets. The approach is experimentally demonstrated in few‐layer MoS2 grown by chemical vapor deposition on cm‐scale anisotropic nanopatterned substrates prepared by a self‐assembling technique, based on defocused ion beam sputtering. Major variations in the photoluminescence spectrum as a function of the average curvature and slope are also revealed. A full‐vectorial numerical study beyond the effective metalayer model and comprising strain effects induced by the geometry turns out to be consistent with such a complex scenario. The results demonstrate that the extrinsic geometrical engineering definitely opens viable way to tailor the optical properties and modulate bandgap of low dimensional materials. [ABSTRACT FROM AUTHOR]

Published
2021
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40. Evidence of Plasmon Enhanced Charge Transfer in Large‐Area Hybrid Au–MoS2 Metasurface.

Author

Camellini, Andrea, Mazzanti, Andrea, Mennucci, Carlo, Martella, Christian, Lamperti, Alessio, Molle, Alessandro, Buatier de Mongeot, Francesco, Della Valle, Giuseppe, and Zavelani‐Rossi, Margherita

Subjects
PLASMONS (Physics), FINITE element method, TRANSITION metals, CHARGE injection, CHARGE transfer, MOLYBDENUM disulfide, SIMULATION methods & models
Abstract

Hybrid plasmonic‐semiconductor assemblies are receiving considerable attention due to the possibility to achieve hot‐carrier‐based photodetection. In this context, 2D transition metal dichalcogenides (TMDs) coupled to metal nanostructures are very promising. However, the plasmon‐to‐TMD carrier injection process is extremely challenging to achieve and even to reveal in a clear‐cut way. Herein, a report of multiple transient absorption ultrafast measurements, with tunable pump excitation, enabling quantitative comparison between the ultrafast behavior of metal nanostructures, TMDs, and their assembly is shown. This allows to provide the evidence of plasmon‐enhanced charge injection from Au nanostripes to a rippled‐shaped molybdenum disulfide (MoS2) few‐layer nanosheet. Finite element method numerical simulations and modeling of the transient optical response corroborate the charge transfer mechanism, showing that the experimental data cannot be described in terms of the thermomodulational nonlinearity of gold nanostripes or by simple superposition of metal and semiconductor responses. The sample is obtained by a self‐organization process on a large area; this demonstrates that plasmon‐enhanced photon harvesting exploiting hot‐electron injection can be achieved on a large area (approximately cm2) surface and provides a substantial advancement toward scalable ultrathin photodetection devices based on hot‐electrons technology. [ABSTRACT FROM AUTHOR]

Published
2020
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41. Optical characterization of anisotropic MoS2 nanosheets

Author

Camellini, Andrea, Cinquanta, Eugenio, Martella, Christian, Mennucci, Carlo, Lamperti, Alessio, Cerullo, Giulio, Della Valle, Giuseppe, Alessandro Molle, Mongeot, Francesco Buatier, and Zavelani-Rossi, Margherita

Subjects
Mechanics of Materials, Electronic, Electronic, Optical and Magnetic Materials, Optical and Magnetic Materials
Published
2017

42. Ultrafast Anisotropic Exciton Dynamics in Nanopatterned MoS2 Sheets

Author

Camellini, Andrea, primary, Mennucci, Carlo, additional, Cinquanta, Eugenio, additional, Martella, Christian, additional, Mazzanti, Andrea, additional, Lamperti, Alessio, additional, Molle, Alessandro, additional, de Mongeot, Francesco Buatier, additional, Della Valle, Giuseppe, additional, and Zavelani-Rossi, Margherita, additional

Published
2018
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45. Optical characterization of anisotropic MoS2 nanosheets

Author

Camellini, Andrea, primary, Cinquanta, Eugenio, additional, Martella, Christian, additional, Mennucci, Carlo, additional, Lamperti, Alessio, additional, Cerullo, Giulio, additional, Della Valle, Giuseppe, additional, Molle, Alessandro, additional, de Mongeot, Francesco Buatier, additional, and Zavelani-Rossi, Margherita, additional

Published
2017
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46. Ultrasmall Nanoplatelets: The Ultimate Tuning of Optoelectronic Properties

Author

Zhou, Yufeng, primary, Celikin, Mert, additional, Camellini, Andrea, additional, Sirigu, Gianluca, additional, Tong, Xin, additional, Jin, Lei, additional, Basu, Kaustubh, additional, Barba, David, additional, Ma, Dongling, additional, Sun, Shuhui, additional, Vidal, François, additional, Zavelani‐Rossi, Margherita, additional, Wang, Zhiming M., additional, Zhao, Haiguang, additional, Vomiero, Alberto, additional, and Rosei, Federico, additional

Published
2017
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47. Colloidal Synthesis of Bipolar Off-Stoichiometric Gallium Iron Oxide Spinel-Type Nanocrystals with Near-IR Plasmon Resonance

Author

Urso, Carmine, primary, Barawi, Mariam, additional, Gaspari, Roberto, additional, Sirigu, Gianluca, additional, Kriegel, Ilka, additional, Zavelani-Rossi, Margherita, additional, Scotognella, Francesco, additional, Manca, Michele, additional, Prato, Mirko, additional, De Trizio, Luca, additional, and Manna, Liberato, additional

Published
2016
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48. Transient optical response of a single gold nanoantenna: the role of plasmon detuning

Author

Della Valle, Giuseppe, Zavelani-Rossi, Margherita, Polli, Dario, Kochtcheev, Serguei, Kumar, Vikas, Molotokaite, Egle, Marangoni, Marco, Longhi, Stefano, Cerullo, Giulio, Adam, Pierre-Michel, Politecnico di Milano [Milan] (POLIMI), Laboratoire de Nanotechnologie et d'Instrumentation Optique (LNIO), Institut Charles Delaunay (ICD), Université de Technologie de Troyes (UTT)-Centre National de la Recherche Scientifique (CNRS)-Université de Technologie de Troyes (UTT)-Centre National de la Recherche Scientifique (CNRS), Dublin City University [Dublin] (DCU), and Dipartimento di Fisica

Subjects
[SPI.OPTI]Engineering Sciences [physics]/Optics / Photonic, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2015

49. Numerical Modeling of the Ultrafast Plasmonic Response of Titanium Nitride Nanostructures

Author

Rotta Loria, Silvia, Schirato, Andrea, Crotti, Giulia, Arregui Leon, Unai, Palpant, Bruno, Zavelani-Rossi, Margherita, and Della Valle, Giuseppe

Abstract

Titanium nitride (TiN) is a promising plasmonic material that has come into the spotlight as a valid alternative to noble metals. As for other plasmonic materials, great attention has been given to the development of TiN nanostructures so as to efficiently tune the plasmon resonance, also combining them in lattices and with other metals or semiconductors. In addition, TiN boasts carrier cooling dynamics more than one order of magnitude faster than that of gold, which gives it a clear advantage in many applications. However, the knowledge of the ultrafast optical response of TiN nanostructures is narrowed down to experimental evidence, without a complete modeling. In this work, we numerically model the nonequilibrium hot-carrier-mediated mechanisms and ultrafast nonlinear changes in the optical response of TiN nanostructures photoinduced by femtosecond laser pulses. Specifically, we focus on nanodisks and nanospheres and compare our simulations with experimental pump–probe measurements. Our approach enables us to disentangle the interband and intraband contributions to the permittivity modulation, pointing out the critical role of the interplay between the TiN interband transitions and the nanostructure optical resonances in the early stages of the photoinduced ultrafast dynamics.

Published
2024
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50. Ultrafast Exciton Dynamics in Colloidal CdSe/CdS Octapod Shaped Nanocrystals

Author

Scotognella, Francesco, Miszta, Karol, Dorfs, Dirk, Zavelani-Rossi, Margherita, Brescia, Rosaria, Marras, Sergio, Manna, Liberato, Lanzani, Guglielmo, and Tassone, Francesco

Abstract

We studied the carrier dynamics in colloidal octapod-shaped cadmium selenide/cadmium sulfide (CdSe/CdS) nanocrystals in the solution phase via pump–probe optical techniques with subpicosecond resolution. We could resolve bleaching from two different types of electronic states having distinct dynamics and assigned them to states delocalized in the pods and mildly localized in the core based on the good agreement of energies found with effective mass modeling. Contrary to other CdSe/CdS core/shell nanocrystals, such a mild localization has geometrical origins as the best agreement was found for negligible conduction band offset. Moreover, even though the large surface of the CdSe/CdS heterointerface results into a weak signature of electron trapping in the bleaching spectrum, we found that a relevant fraction of electrons do remain delocalized in pod states for long times and are thus available for diffusion in photovoltaic applications where the highly branched geometry is expected to advantageously yield to effective percolation in dense assemblies.

Published
2024
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