Self−assembled monolayers of small organic molecules for tuning the electrical and optical properties of surfaces - Archive ouverte HAL Accéder directement au contenu
Communication Dans Un Congrès Année : 2017

Self−assembled monolayers of small organic molecules for tuning the electrical and optical properties of surfaces

Résumé

Molecular self-assembly [1,2] is one of the most promising strategy for giving surface specific properties with a nanoscale control. An important field of application of self-assembled monolayers (SAMs) [2] is the so-called “molecular electronics” within which self-assembly is a very powerful way to obtain the organization at large surface scale of molecules showing particular electro-optical properties. After the principle of SAM preparation, the motivation of developing SAMs of small organic molecules will be illustrated by some examples of controlling the molecular structuration on silicon surfaces [3, 4]. How organization at the molecular scale acts on electro-optical properties of molecular chromophores will then be discussed through two examples: a structure-electrical properties relationship probed by STM [5] and the SAM of a novel push-pull thiophene-based chromophore [6,7]. For the latter, dense SAM formation of such non-charged chromophore is for the first time clearly demonstrated by spectroscopy (XPS, UV-vis, IR), ellipsometry, scanning probe microscopy (STM, AFM), and electrochemical measurements. Besides, good film quality is highlighted and local I-V characteristics measured by STM exhibit electrical rectification. Such I-V curves are correlated to UPS (filled states) and IPES (empty states) measurements and are consistent with the structure of the SAM-organized push-pull molecules standing upright at the surface [6]. This unique combination of properties makes such SAM a system of choice for the foreseen applications like in the field of PV energy conversion [8] and optical rectenna [9]. References [1] G.M. Whitesides, B. Grzybowski, Science 295, 2418 (2002). [2] A. Ulman, An introduction to ultrathin organic films (Academic Press: Boston, 1991) [3] S. Desbief, L. Patrone, D. Goguenheim, D. Guérin, D. Vuillaume, Phys. Chem. Chem. Phys. 13, 2870 (2011); S. Desbief, L. Patrone, D. Goguenheim, D. Vuillaume, RSC Adv. 2, 3014, (2012); L. Patrone, V. Gadenne, S. Desbief, Langmuir 26(22), 17111 (2010) [4] V. Gadenne, L. Porte, L. Patrone, RSC Adv. 4(110), 64506 (2014) [5] X. Lefèvre, F. Moggia, O. Segut, Y.-P. Lin, Y. Ksari, G. Delafosse, K. Smaali, D. Guérin, V. Derycke, D. Vuillaume, S. Lenfant, L. Patrone, B. Jousselme, J. Phys. Chem. C 119(10), 5703 (2015) [6] V. Malytskyi, J.−J. Simon, L. Patrone, J.−M. Raimundo, RSC Adv. 5, 26308 (2015) [7] V. Malytskyi, V. Gadenne, Y. Ksari, L. Patrone, J.−M. Raimundo, Tetrahedron 73, 5738 (2017) [8] V. Malytskyi, J.−J. Simon, L. Patrone, J.−M. Raimundo, RSC Adv. 5, 354 (2015). [9] D. Duché, U. Palanchoke, L. Terracciano, F.−X. Dang, L. Patrone, J. Le Rouzo, T.S. Balaban, C. Alfonso, A. Charai, O. Margeat, J. Ackermann, C. Gourgon, J.−J. Simon, L. Escoubas, SPIE proc., ISSN:1996−756X, 9929: Nanostruct.Thin Films IX, 99290T (2016).
Fichier non déposé

Dates et versions

hal-03611137 , version 1 (16-03-2022)

Identifiants

  • HAL Id : hal-03611137 , version 1

Citer

Lionel Patrone, Volodymyr Malytskyi, Virginie Gadenne, Grégory Delafosse, Simon Desbief, et al.. Self−assembled monolayers of small organic molecules for tuning the electrical and optical properties of surfaces. 4th International Workshop on Nano and Bio−Photonics, Sep 2017, Vogüe, France. ⟨hal-03611137⟩
42 Consultations
0 Téléchargements

Partager

Gmail Facebook X LinkedIn More