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1 - 7 (7 records)

  • Artigo de periodico

    Agathisflavone inhibits viability and modulates the expression of miR-125b, miR-155, IL-6, and arginase in glioblastoma cells and microglia/macrophage activation (2025)

    Silva, Karina Costa da; Lima, Irlã Santos ; Santos, Cleonice Creusa dos; Nonaka, Carolina Kymie Vasques ; Souza, Bruno Solano de Freitas ; David, Jorge Mauricio ; Ulrich, Henning ; Nascimento, Ravena Pereira do ; Costa, Maria de Fátima Dias ; Santos, Balbino Lino dos ; Costa, Silvia Lima

    Source: Molecules. Unidade: IQ

    Subjects: MACRÓFAGOS, QUIMIOTERAPIA

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    • ABNT

      SILVA, Karina Costa da et al. Agathisflavone inhibits viability and modulates the expression of miR-125b, miR-155, IL-6, and arginase in glioblastoma cells and microglia/macrophage activation. Molecules, v. 30, n. 1, p. 1-15 art. 158, 2025Tradução . . Disponível em: https://dx.doi.org/10.3390/molecules30010158. Acesso em: 08 out. 2025.

    • APA

      Silva, K. C. da, Lima, I. S., Santos, C. C. dos, Nonaka, C. K. V., Souza, B. S. de F., David, J. M., et al. (2025). Agathisflavone inhibits viability and modulates the expression of miR-125b, miR-155, IL-6, and arginase in glioblastoma cells and microglia/macrophage activation. Molecules, 30( 1), 1-15 art. 158. doi:10.3390/molecules30010158

    • NLM

      Silva KC da, Lima IS, Santos CC dos, Nonaka CKV, Souza BS de F, David JM, Ulrich H, Nascimento RP do, Costa M de FD, Santos BL dos, Costa SL. Agathisflavone inhibits viability and modulates the expression of miR-125b, miR-155, IL-6, and arginase in glioblastoma cells and microglia/macrophage activation [Internet]. Molecules. 2025 ; 30( 1): 1-15 art. 158.[citado 2025 out. 08 ] Available from: https://dx.doi.org/10.3390/molecules30010158

    • Vancouver

      Silva KC da, Lima IS, Santos CC dos, Nonaka CKV, Souza BS de F, David JM, Ulrich H, Nascimento RP do, Costa M de FD, Santos BL dos, Costa SL. Agathisflavone inhibits viability and modulates the expression of miR-125b, miR-155, IL-6, and arginase in glioblastoma cells and microglia/macrophage activation [Internet]. Molecules. 2025 ; 30( 1): 1-15 art. 158.[citado 2025 out. 08 ] Available from: https://dx.doi.org/10.3390/molecules30010158

  • Artigo de periodico

    Multiple pulse amperometry—an antifouling approach for nitrite determination using carbon fiber microelectrodes (2023)

    Saraiva, Douglas Philip Martinez ; Braga, Daniel Veloso; Bossard, Bruna ; Bertotti, Mauro

    Source: Molecules. Unidade: IQ

    Subjects: AMPEROMETRIA, ELETROANÁLISE

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    • ABNT

      SARAIVA, Douglas Philip Martinez et al. Multiple pulse amperometry—an antifouling approach for nitrite determination using carbon fiber microelectrodes. Molecules, v. 28, n. 1, p. 1-11, 2023Tradução . . Disponível em: https://doi.org/10.3390/molecules28010387. Acesso em: 08 out. 2025.

    • APA

      Saraiva, D. P. M., Braga, D. V., Bossard, B., & Bertotti, M. (2023). Multiple pulse amperometry—an antifouling approach for nitrite determination using carbon fiber microelectrodes. Molecules, 28( 1), 1-11. doi:10.3390/molecules28010387

    • NLM

      Saraiva DPM, Braga DV, Bossard B, Bertotti M. Multiple pulse amperometry—an antifouling approach for nitrite determination using carbon fiber microelectrodes [Internet]. Molecules. 2023 ; 28( 1): 1-11.[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules28010387

    • Vancouver

      Saraiva DPM, Braga DV, Bossard B, Bertotti M. Multiple pulse amperometry—an antifouling approach for nitrite determination using carbon fiber microelectrodes [Internet]. Molecules. 2023 ; 28( 1): 1-11.[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules28010387

  • Artigo de periodico

    Urea decomposition mechanism by Dinuclear nickel complexes (2023)

    Martins, Christian O ; Sebastiany, Leticia K; Castillo, Alejandro Lopez ; Freitas, Rafael Sá de ; Andrade, Leandro Helgueira ; Toma, Henrique Eisi ; Netto, Caterina G. C. Marques

    Source: Molecules. Unidades: IF, IQ

    Subjects: MÉTODOS DE DECOMPOSIÇÃO, UREIA

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    • ABNT

      MARTINS, Christian O et al. Urea decomposition mechanism by Dinuclear nickel complexes. Molecules, v. 28, p. 1-15 art. 1659, 2023Tradução . . Disponível em: https://doi.org/10.3390/molecules28041659. Acesso em: 08 out. 2025.

    • APA

      Martins, C. O., Sebastiany, L. K., Castillo, A. L., Freitas, R. S. de, Andrade, L. H., Toma, H. E., & Netto, C. G. C. M. (2023). Urea decomposition mechanism by Dinuclear nickel complexes. Molecules, 28, 1-15 art. 1659. doi:10.3390/molecules28041659

    • NLM

      Martins CO, Sebastiany LK, Castillo AL, Freitas RS de, Andrade LH, Toma HE, Netto CGCM. Urea decomposition mechanism by Dinuclear nickel complexes [Internet]. Molecules. 2023 ; 28 1-15 art. 1659.[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules28041659

    • Vancouver

      Martins CO, Sebastiany LK, Castillo AL, Freitas RS de, Andrade LH, Toma HE, Netto CGCM. Urea decomposition mechanism by Dinuclear nickel complexes [Internet]. Molecules. 2023 ; 28 1-15 art. 1659.[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules28041659

  • Artigo de periodico

    A new supramolecular tetraruthenated Cobalt (II) Porphyrazine displaying outstanding Electrocatalytical performance in oxygen evolution reaction (2022)

    Silva, Hiago Negromonte ; Toma, Sérgio Hiroshi ; Hennemann, Artur Luís ; Gonçalves, Josué Martins ; Nakamura, Marcelo ; Araki, Koiti ; Toyama, Marcos Makoto ; Toma, Henrique Eisi

    Source: Molecules. Unidade: IQ

    Subjects: ELETROCATÁLISE, COBALTO

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    • ABNT

      SILVA, Hiago Negromonte et al. A new supramolecular tetraruthenated Cobalt (II) Porphyrazine displaying outstanding Electrocatalytical performance in oxygen evolution reaction. Molecules, v. 27, p. 1-17 art. 4598, 2022Tradução . . Disponível em: https://doi.org/10.3390/molecules27144598. Acesso em: 08 out. 2025.

    • APA

      Silva, H. N., Toma, S. H., Hennemann, A. L., Gonçalves, J. M., Nakamura, M., Araki, K., et al. (2022). A new supramolecular tetraruthenated Cobalt (II) Porphyrazine displaying outstanding Electrocatalytical performance in oxygen evolution reaction. Molecules, 27, 1-17 art. 4598. doi:10.3390/molecules27144598

    • NLM

      Silva HN, Toma SH, Hennemann AL, Gonçalves JM, Nakamura M, Araki K, Toyama MM, Toma HE. A new supramolecular tetraruthenated Cobalt (II) Porphyrazine displaying outstanding Electrocatalytical performance in oxygen evolution reaction [Internet]. Molecules. 2022 ; 27 1-17 art. 4598.[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules27144598

    • Vancouver

      Silva HN, Toma SH, Hennemann AL, Gonçalves JM, Nakamura M, Araki K, Toyama MM, Toma HE. A new supramolecular tetraruthenated Cobalt (II) Porphyrazine displaying outstanding Electrocatalytical performance in oxygen evolution reaction [Internet]. Molecules. 2022 ; 27 1-17 art. 4598.[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules27144598

  • Artigo de periodico

    Mitochondrial K+ transport: modulation and functional consequences (2021)

    Pereira Junior, Osvaldo Rodrigues ; Kowaltowski, Alicia Juliana

    Source: Molecules. Unidade: IQ

    Subjects: MITOCÔNDRIAS, POTÁSSIO, FÁRMACOS

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    • ABNT

      PEREIRA JUNIOR, Osvaldo Rodrigues e KOWALTOWSKI, Alicia Juliana. Mitochondrial K+ transport: modulation and functional consequences. Molecules, v. 26, p. 1-11 art. 2935, 2021Tradução . . Disponível em: https://doi.org/10.3390/molecules26102935. Acesso em: 08 out. 2025.

    • APA

      Pereira Junior, O. R., & Kowaltowski, A. J. (2021). Mitochondrial K+ transport: modulation and functional consequences. Molecules, 26, 1-11 art. 2935. doi:10.3390/molecules26102935

    • NLM

      Pereira Junior OR, Kowaltowski AJ. Mitochondrial K+ transport: modulation and functional consequences [Internet]. Molecules. 2021 ; 26 1-11 art. 2935.[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules26102935

    • Vancouver

      Pereira Junior OR, Kowaltowski AJ. Mitochondrial K+ transport: modulation and functional consequences [Internet]. Molecules. 2021 ; 26 1-11 art. 2935.[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules26102935

  • Artigo de periodico

    Photophysical deactivation mechanisms of the pyrimidine analogue 1-cyclohexyluracil (2021)

    Valverde, Danillo Pires ; Araújo, Adalberto Vasconcelos Sanches de ; Borin, Antonio Carlos

    Source: Molecules. Unidade: IQ

    Subjects: FOTOQUÍMICA, QUÍMICA QUÂNTICA

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    • ABNT

      VALVERDE, Danillo Pires e ARAÚJO, Adalberto Vasconcelos Sanches de e BORIN, Antonio Carlos. Photophysical deactivation mechanisms of the pyrimidine analogue 1-cyclohexyluracil. Molecules, v. 9, p. 1-13 art. 5191 : + Supplementary materials ( S1-S6), 2021Tradução . . Disponível em: https://doi.org/10.3390/molecules26175191. Acesso em: 08 out. 2025.

    • APA

      Valverde, D. P., Araújo, A. V. S. de, & Borin, A. C. (2021). Photophysical deactivation mechanisms of the pyrimidine analogue 1-cyclohexyluracil. Molecules, 9, 1-13 art. 5191 : + Supplementary materials ( S1-S6). doi:10.3390/molecules26175191

    • NLM

      Valverde DP, Araújo AVS de, Borin AC. Photophysical deactivation mechanisms of the pyrimidine analogue 1-cyclohexyluracil [Internet]. Molecules. 2021 ; 9 1-13 art. 5191 : + Supplementary materials ( S1-S6).[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules26175191

    • Vancouver

      Valverde DP, Araújo AVS de, Borin AC. Photophysical deactivation mechanisms of the pyrimidine analogue 1-cyclohexyluracil [Internet]. Molecules. 2021 ; 9 1-13 art. 5191 : + Supplementary materials ( S1-S6).[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules26175191

  • Artigo de periodico

    Microwave-Assisted Preparation of Luminescent Inorganic Materials: A Fast Route to Light Conversion and Storage Phosphors (2021)

    Carvalho, Jose Miranda de ; Pedroso, Cássio Cardoso Santos ; Saula, Matheus Salgado de Nichile; Felinto, Maria Claudia França da Cunha ; Brito, Hermi Felinto de

    Source: Molecules. Unidades: IPEN, IQ, IF

    Subjects: FÍSICO-QUÍMICA, CRISTALOGRAFIA, FOTOLUMINESCÊNCIA, TERAPIA FOTODINÂMICA, FÓSFORO, TECNOLOGIA DE MICRO-ONDAS

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    • ABNT

      CARVALHO, Jose Miranda de et al. Microwave-Assisted Preparation of Luminescent Inorganic Materials: A Fast Route to Light Conversion and Storage Phosphors. Molecules, v. 26, n. 10, 2021Tradução . . Disponível em: https://doi.org/10.3390/molecules26102882. Acesso em: 08 out. 2025.

    • APA

      Carvalho, J. M. de, Pedroso, C. C. S., Saula, M. S. de N., Felinto, M. C. F. da C., & Brito, H. F. de. (2021). Microwave-Assisted Preparation of Luminescent Inorganic Materials: A Fast Route to Light Conversion and Storage Phosphors. Molecules, 26( 10). doi:10.3390/molecules26102882

    • NLM

      Carvalho JM de, Pedroso CCS, Saula MS de N, Felinto MCF da C, Brito HF de. Microwave-Assisted Preparation of Luminescent Inorganic Materials: A Fast Route to Light Conversion and Storage Phosphors [Internet]. Molecules. 2021 ; 26( 10):[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules26102882

    • Vancouver

      Carvalho JM de, Pedroso CCS, Saula MS de N, Felinto MCF da C, Brito HF de. Microwave-Assisted Preparation of Luminescent Inorganic Materials: A Fast Route to Light Conversion and Storage Phosphors [Internet]. Molecules. 2021 ; 26( 10):[citado 2025 out. 08 ] Available from: https://doi.org/10.3390/molecules26102882
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