Orientador: Sidney José Lima Ribeiro / Banca: Marie-Joelle Menu / Banca: Lucas Alonso Rocha / Banca: Lauro June Queiroz Maia / Banca: Michel Wong Chi Man / Banca: Marc Verelst / Banca: Isabelle Gautier-Luneau / Resumo: The design of heterobimetallic luminescent complexes has gained growing interest in recent years due to their unique photophysical properties. More specifically, the development of heterobimetallic complexes using d-block chromophores to sensitize the near-infrared (NIR) emission of lanthanide complexes (such as Nd(III) and Yb(III)) has received significant attention taking into account their longer emission wavelengths and the interest of the NIR emission which penetrates human tissue more effectively than UV light. These properties give them potential applications in medical diagnostics or biomedical assays. Transitions to excited state levels of transition metal complexes occurring in the visible and characterized by large absorption coefficients, could efficiently sensitize f-f levels of Ln(III) ions. In this work new d-f heterobimetallic complexes containing silylated ligands were prepared supported on silica materials. [Ru(bpy)2(bpmd)]Cl2 (labeled Ru), [Ru(bpy)(bpy-Si)(bpmd)]Cl2 (labeled RuL) and [Ln(TTA-Si)3] (labeled LnL3) and d-f heterobimetallic complexes, Ru-LnL3 and Ln-RuL (Ln = Nd3+, Yb3+) were prepared. Structural characterization was carried out by Raman Scattering, 1H and 13C NMR spectroscopies. Results obtained from 1H-13C HMBC and HSQC correlation NMR spectra confirm the formation of proposed complexes. Photophysical properties studies highlight the efficiency of Ru-Ln energy transfer processes in NIR-emitting lanthanide complexes mediated by conjugated brid... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: ABSTRACT The design of heterobimetallic luminescent complexes has gained growing interest in recent years due to their unique photophysical properties. More specifically, the development of heterobimetallic complexes using d - block chromophores to sensitize the near - infrared (NIR) emission of lanthanide complexes (such as Nd(III) and Yb(III)) has received significant attention taking into account their longer emission wavelengths and the interest of the NIR emission which pene trates human tissue more effectively than UV light. These properties give them potential applications in medical diagnostics or biomedical assays. Transitions to excited state levels of transition metal complexes occurring in the visible and characterized by large absorption coefficients, could efficiently sensitize f - f levels of Ln(III) ions. I n this work new d - f heterobimetallic complexes containing silylated ligands were prepared supported on silica materials. [Ru(bpy) 2 (bpmd)]Cl 2 (labeled Ru ), [Ru(bpy)(bpy - Si)(bpmd)]Cl 2 (labeled RuL ) and [Ln(TTA - Si) 3 ] (labeled LnL3 ) and d - f heterobimetallic complexes, Ru - LnL3 and Ln - RuL (Ln = Nd 3+, Yb 3+ ) were prepared. Structural characterization was carried out by Raman Scattering, 1 H and 13 C NMR spectroscopies . Results obtained from 1 H - 13 C HMBC and HSQC correlation NMR spectra confirm the formation of proposed complexes. Photophysical properties studies highlight the efficiency of Ru - Ln energy transfer processes in NIR - emitting lanthanide complexes mediated by conjugated bridging ligand (2,2' - bipyrimidine). Lifetime measurements were carried out and values of quantum yield for energy transfer ( ET ) between 30 and 84 % could be evaluated. ET of 7 3 .4 % obtained for the Yb - RuL complex is the largest value reported for Ru(II) - Yb(III) heterobimetallic complexes so far. Grafting on different silica matrix was also demonstrated... / Doutor
| Identifer | oai:union.ndltd.org:UNESP/oai:www.athena.biblioteca.unesp.br:UEP01-000875490 |
| Date | January 2016 |
| Creators | Sábio, Rafael Miguel. |
| Contributors | Universidade Estadual Paulista "Júlio de Mesquita Filho" Instituto de Química. |
| Publisher | Araraquara, |
| Source Sets | Universidade Estadual Paulista |
| Language | Portuguese |
| Detected Language | English |
| Type | text |
| Format | 244 f. |
| Relation | Sistema requerido: Adobe Acrobat Reader |
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