Zusammenfassung der Projektergebnisse

The OPERA project aims at mastering the synthesis, the studies and the theoretical understanding of nanoscale graphene (nanographene) materials with perfectly defined structures and on-demand designed properties. The nanographene materials developed in OPERA will be studied in a series of quantum optics experiments in the view to evaluate their potential interest for quantum devices. To do so, OPERA gathers partners with complementary skills: chemical synthesis, theory/modelling, spectroscopy, and quantum optics. Over the last years, significant progress has been made on the development of nanographene materials with perfectly defined structures. This approach comes complementary to the important research efforts devoted to the 2D related materials beyond graphene that aimed at overcoming the limitation enforced by the semi-metal nature of graphene. Such research efforts are driven by the opportunity to obtain graphene-like materials with a sizable band gap as well as to develop well controlled single quantum objects, i.e. single photons sources. In this framework, the opportunity to finely tune and control the structure of nanographene by bottom-up chemistry is an important asset over the other approaches (i.e. top-down). This is indeed a key point if one wants to build a reliable structure-properties relationship. In a long-term vision, the ability of choosing and controlling the shape of graphene quantum dots can be used as a toolbox for quantum technologies. The possibility to organize them deterministically, and to create artificial quantum dot molecules, will then serve to implement quantum bits and gates. The OPERA project aims at defining a quantum chemistry engineering route using graphene quantum dots with atomically precise structure: Definition of the needed functionalities i.e. optical/electrical/magnetic properties, such as optically addressable spin for instance → Design and synthesis of the required graphene quantum dot structure → Study and use of the graphene quantum dot for quantum technologies. In this context, the objectives of this project are: i) synthesis of new graphene quantum dots exhibiting controlled shapes, edges (zig-zag or armchair) and properties, using the bottom-up approach; ii) evaluation of their optical properties through a combination of advanced experimental and theoretical studies; iii) integration of graphene quantum dot in cavity quantum electrodynamics (CQED) experiments. During the project, and despite the COVI19 crisis, the consortium has achieved different breakthrough: synthesis of new graphene quantum dot structures, comprehensive studies of their photophysics through optical experiments and advanced calculations, and the first studies of the vibrational structure of graphene quantum dots by low temperature experiments.

Projektbezogene Publikationen (Auswahl)

• Bottom-up precision synthesis of graphene nanoribbons and quantum dots, Graphene Oxide Symposium, Kumamoto University (online), Kumamoto, Japan, December 11, 2020
  Narita, A.
  
• Negatively Curved Nanographene with Heptagonal and [5]Helicene Units. Journal of the American Chemical Society, 142(35), 14814-14819.
  Qiu, Zijie; Asako, Sobi; Hu, Yunbin; Ju, Cheng-Wei; Liu, Thomas; Rondin, Loïc; Schollmeyer, Dieter; Lauret, Jean-Sébastien; Müllen, Klaus & Narita, Akimitsu
  
• Synthesis of graphene nanoribbons and novel polycyclic aromatic hydrocarbons. GTR Chemistry Workshop 2020, Nagoya University (online), Nagoya, Japan, December 7, 2020
  Narita, A.
  
• Amplification of Dissymmetry Factors in π-Extended [7]- and [9]Helicenes. Journal of the American Chemical Society, 143(12), 4661-4667.
  Qiu, Zijie; Ju, Cheng-Wei; Frédéric, Lucas; Hu, Yunbin; Schollmeyer, Dieter; Pieters, Grégory; Müllen, Klaus & Narita, Akimitsu
  
• Dicyclopentaannelated Hexa‐peri‐hexabenzocoronenes with a Singlet Biradical Ground State. Angewandte Chemie International Edition, 60(20), 11300-11304.
  Chen, Qiang; Baumgarten, Martin; Wagner, Manfred; Hu, Yunbin; Hou, Ian Cheng‐Yi; Narita, Akimitsu & Müllen, Klaus
  
• Large Polycyclic Aromatic Hydrocarbons as Graphene Quantum Dots: from Synthesis to Spectroscopy and Photonics. Advanced Optical Materials, 9(23).
  Paternò, Giuseppe Maria; Goudappagouda, NA; Chen, Qiang; Lanzani, Guglielmo; Scotognella, Francesco & Narita, Akimitsu
  
• Precision Synthesis of Low-Dimensional Nanocarbon Materials, The 101st Chemical Society of Japan Annual Meeting (online), March 19, 2021
  Narita, A.
  
• Synthesis and Optical Properties of Graphene Quantum Dots, 239th ECS meeting (virtual meeting) May 30-June 3, 2021 (Invited)
  Campidelli, S.
  
• Synthesis of Nonplanar Graphene Nanoribbon with Fjord Edges. Journal of the American Chemical Society, 143(15), 5654-5658.
  Yao, Xuelin; Zheng, Wenhao; Osella, Silvio; Qiu, Zijie; Fu, Shuai; Schollmeyer, Dieter; Müller, Beate; Beljonne, David; Bonn, Mischa; Wang, Hai I.; Müllen, Klaus & Narita, Akimitsu
  
• Thermally Induced Synthesis of Anthracene‐, Pyrene‐ and Naphthalene‐Fused Porphyrins. ChemistryOpen, 10(10), 997-1003.
  Pijeat, Joffrey; Chaussy, Léo; Simoës, Roxanne; Isopi, Jacopo; Lauret, Jean‐Sébastien; Paolucci, Francesco; Marcaccio, Massimo & Campidelli, Stéphane
  
• Bottom-up Synthesis and Functionalization of Graphene Quantum Dots with Atomically Precise Structures, nanoGe Spring Meeting 2022 (online), March 7–11, 2022
  Narita, A.
  
• On-Surface Synthesis of Fused Anthracenyl Porphyrin Derivatives, 240th ECS Meeting, Vancouver, May 29-June 2, 2022
  Campidelli, S.
  
• Small Size, Big Impact: Recent Progress in Bottom‐Up Synthesized Nanographenes for Optoelectronic and Energy Applications. Advanced Science, 9(19).
  Liu, Zhaoyang; Fu, Shuai; Liu, Xiaomin; Narita, Akimitsu; Samorì, Paolo; Bonn, Mischa & Wang, Hai I.
  
• Synthesis and Characterizations of Highly Fluorescent Nanographene Molecules, 241st ECS Meeting, Vancouver, Canada, May 29–June 2, 2022
  A. Narita
  
• Synthesis and Functionalization of Highly Luminescent Polycyclic Aromatic Hydrocarbons toward Photonic Applications, The 11th Singapore International Chemistry Conference (SICC11), Singappore, December 14, 2022
  A. Narita,
  
• Synthesis of Giant Dendritic Polyphenylenes with 366 and 546 Carbon Atoms and Their High‐vacuum Electrospray Deposition. Chemistry – An Asian Journal, 17(11).
  Hou, Ian Cheng‐Yi; Hinaut, Antoine; Scherb, Sebastian; Meyer, Ernst; Narita, Akimitsu & Müllen, Klaus
  
• Vibronic effect and influence of aggregation on the photophysics of graphene quantum dots. Nanoscale, 14(10), 3826-3833.
  Liu, Thomas; Tonnelé, Claire; Zhao, Shen; Rondin, Loïc; Elias, Christine; Medina-Lopez, Daniel; Okuno, Hanako; Narita, Akimitsu; Chassagneux, Yannick; Voisin, Christophe; Campidelli, Stéphane; Beljonne, David & Lauret, Jean-Sébastien
  
• Vibronic fingerprints in the luminescence of graphene quantum dots at cryogenic temperature. The Journal of Chemical Physics, 156(10).
  Liu, Thomas; Carles, Baptiste; Elias, Christine; Tonnelé, Claire; Medina-Lopez, Daniel; Narita, Akimitsu; Chassagneux, Yannick; Voisin, Christophe; Beljonne, David; Campidelli, Stéphane; Rondin, Loïc & Lauret, Jean-Sébastien
  
• Bottom‐Up Synthesis, Dispersion and Properties of Rectangular‐Shaped Graphene Quantum Dots. Helvetica Chimica Acta, 106(6).
  Lavie, Julien; Vu, Van Binh; Medina‐Lopez, Daniel; Dappe, Yannick; Liu, Thomas; Rondin, Loïc; Lauret, Jean‐Sébastien; Latil, Sylvain & Campidelli, Stéphane
  
• Interplay of structure and photophysics of individualized rod-shaped graphene quantum dots with up to 132 sp² carbon atoms. Nature Communications, 14(1).
  Medina-Lopez, Daniel; Liu, Thomas; Osella, Silvio; Levy-Falk, Hugo; Rolland, Nicolas; Elias, Christine; Huber, Gaspard; Ticku, Pranav; Rondin, Loïc; Jousselme, Bruno; Beljonne, David; Lauret, Jean-Sébastien & Campidelli, Stephane
  
• N =8 Armchair Graphene Nanoribbons: Solution Synthesis and High Charge Carrier Mobility**. Angewandte Chemie International Edition, 62(46).
  Yao, Xuelin; Zhang, Heng; Kong, Fanmiao; Hinaut, Antoine; Pawlak, Rémy; Okuno, Masanari; Graf, Robert; Horton, Peter N.; Coles, Simon J.; Meyer, Ernst; Bogani, Lapo; Bonn, Mischa; Wang, Hai I.; Müllen, Klaus & Narita, Akimitsu
  
• Quantum emitters in 2D, Vallebonne, France, January 2023
  JS Lauret
  
• Saturated Linkers in Two-Dimensional Covalent Organic Frameworks Boost Their Luminescence. Journal of the American Chemical Society, 145(26), 14417-14426.
  Yang, Meijia; Hanayama, Hiroki; Fang, Long; Addicoat, Matthew A.; Guo, Yunyu; Graf, Robert; Harano, Koji; Kikkawa, Jun; Jin, Enquan; Narita, Akimitsu & Müllen, Klaus
  
• Symposium J E-MRS Fall Meeting, Varsovie (Septembre 2023)
  JS Lauret
  
• Symposium on fundamental, structural and optical properties of 1D and 2D materials and their heterostructures, NT23, Arcachon (France), June 2023
  JS Lauret
  
• Synthetic Exploration of Functional Nanographenes for Photonic Applications, 243rd ECS Meeting, Boston, MA, May 28– June 2, 2023
  A. Narita