Filtros : "Financiado FAPESP" "IQ" Removidos: "Miyamoto, Sayuri" "REINACH, FERNANDO DE CASTRO" Limpar

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  • Source: Journal of Inorganic Biochemistry. Unidade: IQ

    Subjects: ANTIFÚNGICOS, CANDIDA ALBICANS, CRYPTOCOCCUS NEOFORMANS, ZINCO, COBRE

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      FRANÇA, Jose Aleixo de Azevedo et al. Antifungal promising agents of zinc(II) and copper(II) derivatives based on azole drug. Journal of Inorganic Biochemistry, v. 219, p. 1-11 art. 111401, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.jinorgbio.2021.111401. Acesso em: 31 out. 2024.
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      França, J. A. de A., Santos, L. P. B. dos, Pimentel, G. de A., Franco, C. H. J., Souza, C., Celestino, J. de A., et al. (2021). Antifungal promising agents of zinc(II) and copper(II) derivatives based on azole drug. Journal of Inorganic Biochemistry, 219, 1-11 art. 111401. doi:10.1016/j.jinorgbio.2021.111401
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      França JA de A, Santos LPB dos, Pimentel G de A, Franco CHJ, Souza C, Celestino J de A, Menezes EF de, Santos NP dos, Vieira EG, Ferreira AM da C, Souza W de, Rozental S, Navarro M. Antifungal promising agents of zinc(II) and copper(II) derivatives based on azole drug [Internet]. Journal of Inorganic Biochemistry. 2021 ; 219 1-11 art. 111401.[citado 2024 out. 31 ] Available from: https://doi.org/10.1016/j.jinorgbio.2021.111401
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      França JA de A, Santos LPB dos, Pimentel G de A, Franco CHJ, Souza C, Celestino J de A, Menezes EF de, Santos NP dos, Vieira EG, Ferreira AM da C, Souza W de, Rozental S, Navarro M. Antifungal promising agents of zinc(II) and copper(II) derivatives based on azole drug [Internet]. Journal of Inorganic Biochemistry. 2021 ; 219 1-11 art. 111401.[citado 2024 out. 31 ] Available from: https://doi.org/10.1016/j.jinorgbio.2021.111401
  • Source: Frontiers in Marine Science. Unidades: IQ, IO

    Subjects: BIOLUMINESCÊNCIA, VERMES

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      MORAES, Gabriela Verruck de et al. Bioluminescence in Polynoid Scale Worms (Annelida: Polynoidae). Frontiers in Marine Science, v. 8, p. 1-9 art. 643197, 2021Tradução . . Disponível em: https://doi.org/10.3389/fmars.2021.643197. Acesso em: 31 out. 2024.
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      Moraes, G. V. de, Hannon, M. C., Soares, D. M. M., Stevani, C. V., Schulze, A., & Oliveira, A. G. de. (2021). Bioluminescence in Polynoid Scale Worms (Annelida: Polynoidae). Frontiers in Marine Science, 8, 1-9 art. 643197. doi:10.3389/fmars.2021.643197
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      Moraes GV de, Hannon MC, Soares DMM, Stevani CV, Schulze A, Oliveira AG de. Bioluminescence in Polynoid Scale Worms (Annelida: Polynoidae) [Internet]. Frontiers in Marine Science. 2021 ; 8 1-9 art. 643197.[citado 2024 out. 31 ] Available from: https://doi.org/10.3389/fmars.2021.643197
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      Moraes GV de, Hannon MC, Soares DMM, Stevani CV, Schulze A, Oliveira AG de. Bioluminescence in Polynoid Scale Worms (Annelida: Polynoidae) [Internet]. Frontiers in Marine Science. 2021 ; 8 1-9 art. 643197.[citado 2024 out. 31 ] Available from: https://doi.org/10.3389/fmars.2021.643197
  • Source: Energy Technology. Unidade: IQ

    Subjects: CÉLULAS A COMBUSTÍVEL, OURO, CONDUTIVIDADE ELÉTRICA, ELETROQUÍMICA, CONVERSÃO DE ENERGIA ELÉTRICA

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      GONÇALVES, Josué Martins et al. Nanoporous gold-based materials for electrochemical energy storage and conversion. Energy Technology, v. 2021, p. 1-40 art. 2000927, 2021Tradução . . Disponível em: https://doi.org/10.1002/ente.202000927. Acesso em: 31 out. 2024.
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      Gonçalves, J. M., Kumar, A., Silva, M. I. da, Toma, H. E., Martins, P. R., Araki, K., et al. (2021). Nanoporous gold-based materials for electrochemical energy storage and conversion. Energy Technology, 2021, 1-40 art. 2000927. doi:10.1002/ente.202000927
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      Gonçalves JM, Kumar A, Silva MI da, Toma HE, Martins PR, Araki K, Bertotti M, Angnes L. Nanoporous gold-based materials for electrochemical energy storage and conversion [Internet]. Energy Technology. 2021 ; 2021 1-40 art. 2000927.[citado 2024 out. 31 ] Available from: https://doi.org/10.1002/ente.202000927
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      Gonçalves JM, Kumar A, Silva MI da, Toma HE, Martins PR, Araki K, Bertotti M, Angnes L. Nanoporous gold-based materials for electrochemical energy storage and conversion [Internet]. Energy Technology. 2021 ; 2021 1-40 art. 2000927.[citado 2024 out. 31 ] Available from: https://doi.org/10.1002/ente.202000927
  • Source: ChemPhysChem. Unidade: IQ

    Subjects: ESPECTROSCOPIA RAMAN, ÁCIDOS

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      MARQUES, Leandro Ramos e ANDO, Rômulo Augusto. Probing the charge transfer in a frustrated lewis pair by resonance raman spectroscopy and DFT calculations. ChemPhysChem, v. 22, n. 6, p. 522-525, 2021Tradução . . Disponível em: https://doi.org/10.1002/cphc.202001024. Acesso em: 31 out. 2024.
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      Marques, L. R., & Ando, R. A. (2021). Probing the charge transfer in a frustrated lewis pair by resonance raman spectroscopy and DFT calculations. ChemPhysChem, 22( 6), 522-525. doi:10.1002/cphc.202001024
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      Marques LR, Ando RA. Probing the charge transfer in a frustrated lewis pair by resonance raman spectroscopy and DFT calculations [Internet]. ChemPhysChem. 2021 ; 22( 6): 522-525.[citado 2024 out. 31 ] Available from: https://doi.org/10.1002/cphc.202001024
    • Vancouver

      Marques LR, Ando RA. Probing the charge transfer in a frustrated lewis pair by resonance raman spectroscopy and DFT calculations [Internet]. ChemPhysChem. 2021 ; 22( 6): 522-525.[citado 2024 out. 31 ] Available from: https://doi.org/10.1002/cphc.202001024
  • Source: Cytometry. Unidade: IQ

    Subjects: CÉLULAS-TRONCO, NEOPLASIAS CEREBRAIS, CITOMETRIA DE FLUXO, RECEPTORES

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      PILLAT, Micheli Mainardi et al. Mesenchymal stem cell-glioblastoma interactions mediated via kinin receptors unveiled by cytometry. Cytometry, v. 99, p. 152–163, 2021Tradução . . Disponível em: https://doi.org/10.1002/cyto.a.24299. Acesso em: 31 out. 2024.
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      Pillat, M. M., Giacomelli, A. O., Oliveira, M. das N., Andrejew, R., Turrini, N., Baranova, J., et al. (2021). Mesenchymal stem cell-glioblastoma interactions mediated via kinin receptors unveiled by cytometry. Cytometry, 99, 152–163. doi:10.1002/cyto.a.24299
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      Pillat MM, Giacomelli AO, Oliveira M das N, Andrejew R, Turrini N, Baranova J, Turnšek TL, Ulrich H. Mesenchymal stem cell-glioblastoma interactions mediated via kinin receptors unveiled by cytometry [Internet]. Cytometry. 2021 ; 99 152–163.[citado 2024 out. 31 ] Available from: https://doi.org/10.1002/cyto.a.24299
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      Pillat MM, Giacomelli AO, Oliveira M das N, Andrejew R, Turrini N, Baranova J, Turnšek TL, Ulrich H. Mesenchymal stem cell-glioblastoma interactions mediated via kinin receptors unveiled by cytometry [Internet]. Cytometry. 2021 ; 99 152–163.[citado 2024 out. 31 ] Available from: https://doi.org/10.1002/cyto.a.24299
  • Source: Journal of Photochemistry and Photobiology A. Unidade: IQ

    Subjects: CINÉTICA, FLUORESCÊNCIA

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      CABELLO, Maidileyvis Castro e BELLO, Liena Valero e BAADER, Wilhelm Josef. Use of coumarin derivatives as activators in the peroxyoxalate system in organic and aqueous media. Journal of Photochemistry and Photobiology A, v. 408, p. 1-9 art. 113076, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.jphotochem.2020.113076. Acesso em: 31 out. 2024.
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      Cabello, M. C., Bello, L. V., & Baader, W. J. (2021). Use of coumarin derivatives as activators in the peroxyoxalate system in organic and aqueous media. Journal of Photochemistry and Photobiology A, 408, 1-9 art. 113076. doi:10.1016/j.jphotochem.2020.113076
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      Cabello MC, Bello LV, Baader WJ. Use of coumarin derivatives as activators in the peroxyoxalate system in organic and aqueous media [Internet]. Journal of Photochemistry and Photobiology A. 2021 ; 408 1-9 art. 113076.[citado 2024 out. 31 ] Available from: https://doi.org/10.1016/j.jphotochem.2020.113076
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      Cabello MC, Bello LV, Baader WJ. Use of coumarin derivatives as activators in the peroxyoxalate system in organic and aqueous media [Internet]. Journal of Photochemistry and Photobiology A. 2021 ; 408 1-9 art. 113076.[citado 2024 out. 31 ] Available from: https://doi.org/10.1016/j.jphotochem.2020.113076
  • Source: Frontiers in Physiology. Unidades: IQ, FM

    Subjects: CORONAVIRUS, COVID-19, OLFATO, INFECÇÕES RESPIRATÓRIAS, ASSISTÊNCIA MÉDICA

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      SBRANA, Mariana Ferreira et al. Olfactory dysfunction in frontline health care professionals during COVID-19 pandemic in Brazil. Frontiers in Physiology, v. 12, p. 1-11 art. 622987, 2021Tradução . . Disponível em: https://doi.org/10.3389/fphys.2021.622987. Acesso em: 31 out. 2024.
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      Sbrana, M. F., Fornazier, M. A., Bruni-Cardoso, A., Silva, V. H. I. A. da, Schechtman, D., Voegels, R. L., et al. (2021). Olfactory dysfunction in frontline health care professionals during COVID-19 pandemic in Brazil. Frontiers in Physiology, 12, 1-11 art. 622987. doi:10.3389/fphys.2021.622987
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      Sbrana MF, Fornazier MA, Bruni-Cardoso A, Silva VHIA da, Schechtman D, Voegels RL, Malnic B, Glezer I, Pinna F de R. Olfactory dysfunction in frontline health care professionals during COVID-19 pandemic in Brazil [Internet]. Frontiers in Physiology. 2021 ; 12 1-11 art. 622987.[citado 2024 out. 31 ] Available from: https://doi.org/10.3389/fphys.2021.622987
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      Sbrana MF, Fornazier MA, Bruni-Cardoso A, Silva VHIA da, Schechtman D, Voegels RL, Malnic B, Glezer I, Pinna F de R. Olfactory dysfunction in frontline health care professionals during COVID-19 pandemic in Brazil [Internet]. Frontiers in Physiology. 2021 ; 12 1-11 art. 622987.[citado 2024 out. 31 ] Available from: https://doi.org/10.3389/fphys.2021.622987
  • Source: Biometals. Unidade: IQ

    Subjects: AMINAS, FERRO

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      CARVALHO, Rodrigo Rodrigues Victor de et al. Conjugates of desferrioxamine and aromatic amines improve markers of iron-dependent neurotoxicity. Biometals, v. 34, p. 259–275, 2021Tradução . . Disponível em: https://doi.org/10.1007/s10534-020-00277-7. Acesso em: 31 out. 2024.
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      Carvalho, R. R. V. de, Peres, T. V., Liria, C. W., Machini, M. T., Aschner, M., & Espósito, B. P. (2021). Conjugates of desferrioxamine and aromatic amines improve markers of iron-dependent neurotoxicity. Biometals, 34, 259–275. doi:10.1007/s10534-020-00277-7
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      Carvalho RRV de, Peres TV, Liria CW, Machini MT, Aschner M, Espósito BP. Conjugates of desferrioxamine and aromatic amines improve markers of iron-dependent neurotoxicity [Internet]. Biometals. 2021 ; 34 259–275.[citado 2024 out. 31 ] Available from: https://doi.org/10.1007/s10534-020-00277-7
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      Carvalho RRV de, Peres TV, Liria CW, Machini MT, Aschner M, Espósito BP. Conjugates of desferrioxamine and aromatic amines improve markers of iron-dependent neurotoxicity [Internet]. Biometals. 2021 ; 34 259–275.[citado 2024 out. 31 ] Available from: https://doi.org/10.1007/s10534-020-00277-7
  • Source: Journal of Electroanalytical Chemistry. Unidade: IQ

    Subjects: ELETRÓLITOS, LÍQUIDOS IÔNICOS, ELETROQUÍMICA, CAPACITORES

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      MARTINS, Vitor Leite e OBANA, Thiago Takeshi e TORRESI, Roberto Manuel. Electroactivity of 3D conducting polymers in water-in-salt electrolyte and their electrochemical capacitor performance. Journal of Electroanalytical Chemistry, v. 880, p. 1-8 art. 114822, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.jelechem.2020.114822. Acesso em: 31 out. 2024.
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      Martins, V. L., Obana, T. T., & Torresi, R. M. (2021). Electroactivity of 3D conducting polymers in water-in-salt electrolyte and their electrochemical capacitor performance. Journal of Electroanalytical Chemistry, 880, 1-8 art. 114822. doi:10.1016/j.jelechem.2020.114822
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      Martins VL, Obana TT, Torresi RM. Electroactivity of 3D conducting polymers in water-in-salt electrolyte and their electrochemical capacitor performance [Internet]. Journal of Electroanalytical Chemistry. 2021 ; 880 1-8 art. 114822.[citado 2024 out. 31 ] Available from: https://doi.org/10.1016/j.jelechem.2020.114822
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      Martins VL, Obana TT, Torresi RM. Electroactivity of 3D conducting polymers in water-in-salt electrolyte and their electrochemical capacitor performance [Internet]. Journal of Electroanalytical Chemistry. 2021 ; 880 1-8 art. 114822.[citado 2024 out. 31 ] Available from: https://doi.org/10.1016/j.jelechem.2020.114822
  • Source: Microchemical Journal. Unidade: IQ

    Subjects: CROMATOGRAFIA LÍQUIDA, RESSONÂNCIA MAGNÉTICA NUCLEAR, ESPECTROSCOPIA

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      MARQUES, Rafael et al. 3-(methacryloxy)propyl]trimethoxysilane-based monolithic stationary phases for capillary-scale chromatography and their characterization by contactless conductivity detection and solid-state NMR spectroscopy. Microchemical Journal, v. 161, p. 1-11 art. 105783, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.microc.2020.105783. Acesso em: 31 out. 2024.
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      Marques, R., Lima, N. M., Cantarino, L. F., Carvalho, G. S. G. de, Leitão, A. A., Lago, C. L. do, & Oliveir, M. A. L. de. (2021). 3-(methacryloxy)propyl]trimethoxysilane-based monolithic stationary phases for capillary-scale chromatography and their characterization by contactless conductivity detection and solid-state NMR spectroscopy. Microchemical Journal, 161, 1-11 art. 105783. doi:10.1016/j.microc.2020.105783
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      Marques R, Lima NM, Cantarino LF, Carvalho GSG de, Leitão AA, Lago CL do, Oliveir MAL de. 3-(methacryloxy)propyl]trimethoxysilane-based monolithic stationary phases for capillary-scale chromatography and their characterization by contactless conductivity detection and solid-state NMR spectroscopy [Internet]. Microchemical Journal. 2021 ; 161 1-11 art. 105783.[citado 2024 out. 31 ] Available from: https://doi.org/10.1016/j.microc.2020.105783
    • Vancouver

      Marques R, Lima NM, Cantarino LF, Carvalho GSG de, Leitão AA, Lago CL do, Oliveir MAL de. 3-(methacryloxy)propyl]trimethoxysilane-based monolithic stationary phases for capillary-scale chromatography and their characterization by contactless conductivity detection and solid-state NMR spectroscopy [Internet]. Microchemical Journal. 2021 ; 161 1-11 art. 105783.[citado 2024 out. 31 ] Available from: https://doi.org/10.1016/j.microc.2020.105783
  • Source: Photochemistry and Photobiology. Unidade: IQ

    Subjects: OXIGÊNIO, PEROXIDASE

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      RAMOS, Luiz Duarte et al. L-Tryptophan interactions with the horseradish peroxidase-catalyzed generation of triplet acetone. Photochemistry and Photobiology, v. 97, p. 327–334, 2021Tradução . . Disponível em: https://doi.org/10.1111/PHP.13363. Acesso em: 31 out. 2024.
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      Ramos, L. D., Prado, F. M., Stevani, C. V., Di Mascio, P., & Bechara, E. J. H. (2021). L-Tryptophan interactions with the horseradish peroxidase-catalyzed generation of triplet acetone. Photochemistry and Photobiology, 97, 327–334. doi:10.1111/PHP.13363
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      Ramos LD, Prado FM, Stevani CV, Di Mascio P, Bechara EJH. L-Tryptophan interactions with the horseradish peroxidase-catalyzed generation of triplet acetone [Internet]. Photochemistry and Photobiology. 2021 ; 97 327–334.[citado 2024 out. 31 ] Available from: https://doi.org/10.1111/PHP.13363
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      Ramos LD, Prado FM, Stevani CV, Di Mascio P, Bechara EJH. L-Tryptophan interactions with the horseradish peroxidase-catalyzed generation of triplet acetone [Internet]. Photochemistry and Photobiology. 2021 ; 97 327–334.[citado 2024 out. 31 ] Available from: https://doi.org/10.1111/PHP.13363
  • Source: Molecular Psychiatry. Unidade: IQ

    Subjects: COVID-19, RECEPTORES, SURTOS DE DOENÇAS

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      RIBEIRO, Deidiane Elisa et al. Hyperactivation of P2X7 receptors as a culprit of COVID-19 neuropathology. Molecular Psychiatry, v. 26, p. 1044–1059, 2021Tradução . . Disponível em: https://doi.org/10.1038/s41380-020-00965-3. Acesso em: 31 out. 2024.
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      Ribeiro, D. E., Giacomelli, Á. O., Glaser, T., Sampaio, V. F. A., Andrejew, R., Dieckmann, L., et al. (2021). Hyperactivation of P2X7 receptors as a culprit of COVID-19 neuropathology. Molecular Psychiatry, 26, 1044–1059. doi:10.1038/s41380-020-00965-3
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      Ribeiro DE, Giacomelli ÁO, Glaser T, Sampaio VFA, Andrejew R, Dieckmann L, Baranova J, Lameu C, Ratajczak MZ, Ulrich H. Hyperactivation of P2X7 receptors as a culprit of COVID-19 neuropathology [Internet]. Molecular Psychiatry. 2021 ; 26 1044–1059.[citado 2024 out. 31 ] Available from: https://doi.org/10.1038/s41380-020-00965-3
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      Ribeiro DE, Giacomelli ÁO, Glaser T, Sampaio VFA, Andrejew R, Dieckmann L, Baranova J, Lameu C, Ratajczak MZ, Ulrich H. Hyperactivation of P2X7 receptors as a culprit of COVID-19 neuropathology [Internet]. Molecular Psychiatry. 2021 ; 26 1044–1059.[citado 2024 out. 31 ] Available from: https://doi.org/10.1038/s41380-020-00965-3

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