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  • Source: Chemosphere. Unidade: EP

    Subjects: PESTICIDAS, HIDRÓLISE

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    • ABNT

      RAMOS, Bruno et al. Kinetics, mechanism, and tautomerism in ametryn acid hydrolysis: from molecular structure to environmental impacts. Chemosphere, v. 324, p. 1-10, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.chemosphere.2023.138278. Acesso em: 13 nov. 2024.
    • APA

      Ramos, B., Vaz, W. F., Diniz, L. F., Sanches-Neto, F. O., Ribeiro, J. C. O., Carvalho-Silva, V. H., et al. (2023). Kinetics, mechanism, and tautomerism in ametryn acid hydrolysis: from molecular structure to environmental impacts. Chemosphere, 324, 1-10. doi:10.1016/j.chemosphere.2023.138278
    • NLM

      Ramos B, Vaz WF, Diniz LF, Sanches-Neto FO, Ribeiro JCO, Carvalho-Silva VH, Teixeira ACSC, Ribeiro C, Napolitano HB, Carvalho Junior P de S. Kinetics, mechanism, and tautomerism in ametryn acid hydrolysis: from molecular structure to environmental impacts [Internet]. Chemosphere. 2023 ; 324 1-10.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2023.138278
    • Vancouver

      Ramos B, Vaz WF, Diniz LF, Sanches-Neto FO, Ribeiro JCO, Carvalho-Silva VH, Teixeira ACSC, Ribeiro C, Napolitano HB, Carvalho Junior P de S. Kinetics, mechanism, and tautomerism in ametryn acid hydrolysis: from molecular structure to environmental impacts [Internet]. Chemosphere. 2023 ; 324 1-10.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2023.138278
  • Source: Chemosphere. Unidades: IF, IPEN, EP, IGC

    Subjects: FÍSICO-QUÍMICA, SILICATOS, FOTOCATÁLISE, NANOPARTÍCULAS, ANTIBIÓTICOS, ESPALHAMENTO DE RAIOS X A BAIXOS ÂNGULOS, ESPECTROSCOPIA DA LUZ

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    • ABNT

      CASTANHEIRA, Bruna et al. Functionalized mesoporous silicas SBA-15 for heterogeneous photocatalysis towards CECs removal from secondary urban wastewater. Chemosphere, v. 287, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.chemosphere.2021.132023. Acesso em: 13 nov. 2024.
    • APA

      Castanheira, B., Otubo, L., Oliveira, C. L. P., & Teixeira, A. C. S. C. (2023). Functionalized mesoporous silicas SBA-15 for heterogeneous photocatalysis towards CECs removal from secondary urban wastewater. Chemosphere, 287. doi:10.1016/j.chemosphere.2021.132023
    • NLM

      Castanheira B, Otubo L, Oliveira CLP, Teixeira ACSC. Functionalized mesoporous silicas SBA-15 for heterogeneous photocatalysis towards CECs removal from secondary urban wastewater [Internet]. Chemosphere. 2023 ; 287[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2021.132023
    • Vancouver

      Castanheira B, Otubo L, Oliveira CLP, Teixeira ACSC. Functionalized mesoporous silicas SBA-15 for heterogeneous photocatalysis towards CECs removal from secondary urban wastewater [Internet]. Chemosphere. 2023 ; 287[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2021.132023
  • Source: Chemosphere. Unidades: IQSC, EP

    Subjects: ELETROQUÍMICA, ETANOL

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    • ABNT

      FIORI, Isabela et al. Electro-oxidation of tetracycline in ethanol-water mixture using DSA-Cl2 anode and stimulating/monitoring the formation of organic radicals. Chemosphere, v. 308, p. 136487, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.chemosphere.2022.136487. Acesso em: 13 nov. 2024.
    • APA

      Fiori, I., Santacruz, W., Dionisio, D., & Motheo, A. de J. (2022). Electro-oxidation of tetracycline in ethanol-water mixture using DSA-Cl2 anode and stimulating/monitoring the formation of organic radicals. Chemosphere, 308, 136487. doi:10.1016/j.chemosphere.2022.136487
    • NLM

      Fiori I, Santacruz W, Dionisio D, Motheo A de J. Electro-oxidation of tetracycline in ethanol-water mixture using DSA-Cl2 anode and stimulating/monitoring the formation of organic radicals [Internet]. Chemosphere. 2022 ; 308 136487.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2022.136487
    • Vancouver

      Fiori I, Santacruz W, Dionisio D, Motheo A de J. Electro-oxidation of tetracycline in ethanol-water mixture using DSA-Cl2 anode and stimulating/monitoring the formation of organic radicals [Internet]. Chemosphere. 2022 ; 308 136487.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2022.136487
  • Source: Chemosphere. Unidade: EP

    Subjects: MICROALGAS, CHLORELLA

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    • ABNT

      ANDRADE, Lidiane Maria de et al. Chlorella vulgaris phycoremediation at low Cu+2 contents: proteomic profiling of microalgal metabolism related to fatty acids and CO2 fixation. Chemosphere, v. 284, p. 1-8, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.chemosphere.2021.131272. Acesso em: 13 nov. 2024.
    • APA

      Andrade, L. M. de, Tito, C. A., Mascarenhas, C., Lima, F. A., Dias, M., Andrade, C. J. de, et al. (2021). Chlorella vulgaris phycoremediation at low Cu+2 contents: proteomic profiling of microalgal metabolism related to fatty acids and CO2 fixation. Chemosphere, 284, 1-8. doi:10.1016/j.chemosphere.2021.131272
    • NLM

      Andrade LM de, Tito CA, Mascarenhas C, Lima FA, Dias M, Andrade CJ de, Mendes MA, Nascimento CAO do. Chlorella vulgaris phycoremediation at low Cu+2 contents: proteomic profiling of microalgal metabolism related to fatty acids and CO2 fixation [Internet]. Chemosphere. 2021 ;284 1-8.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2021.131272
    • Vancouver

      Andrade LM de, Tito CA, Mascarenhas C, Lima FA, Dias M, Andrade CJ de, Mendes MA, Nascimento CAO do. Chlorella vulgaris phycoremediation at low Cu+2 contents: proteomic profiling of microalgal metabolism related to fatty acids and CO2 fixation [Internet]. Chemosphere. 2021 ;284 1-8.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2021.131272
  • Source: Chemosphere. Unidade: EP

    Subjects: COMPOSTOS ORGÂNICOS, METAIS, COBRE

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    • ABNT

      GRAÇA, Cátia Alexandra Leça et al. Anoxic degradation of chlorpyrifos by zerovalent monometallic and bimetallic particles in solution. Chemosphere, v. 244, p. 1-11, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.chemosphere.2019.125461. Acesso em: 13 nov. 2024.
    • APA

      Graça, C. A. L., Mendes, M. A., Teixeira, A. C. S. C., & Velosa, A. C. de. (2020). Anoxic degradation of chlorpyrifos by zerovalent monometallic and bimetallic particles in solution. Chemosphere, 244, 1-11. doi:10.1016/j.chemosphere.2019.125461
    • NLM

      Graça CAL, Mendes MA, Teixeira ACSC, Velosa AC de. Anoxic degradation of chlorpyrifos by zerovalent monometallic and bimetallic particles in solution [Internet]. Chemosphere. 2020 ; 244 1-11.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2019.125461
    • Vancouver

      Graça CAL, Mendes MA, Teixeira ACSC, Velosa AC de. Anoxic degradation of chlorpyrifos by zerovalent monometallic and bimetallic particles in solution [Internet]. Chemosphere. 2020 ; 244 1-11.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2019.125461
  • Source: Chemosphere. Unidade: EP

    Assunto: HERBICIDAS

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    • ABNT

      GRAÇA, Cátia Alexandra Leça e VELOSA, Adriana Correia de e TEIXEIRA, Antonio Carlos S. C. Role of Fe(III)-carboxylates in AMZ photodegradation: a response surface study based on a Doehlert experimental design. Chemosphere, v. 280, p. 80-85, 2017Tradução . . Disponível em: https://doi.org/10.1016/j.chemosphere.2017.06.013. Acesso em: 13 nov. 2024.
    • APA

      Graça, C. A. L., Velosa, A. C. de, & Teixeira, A. C. S. C. (2017). Role of Fe(III)-carboxylates in AMZ photodegradation: a response surface study based on a Doehlert experimental design. Chemosphere, 280, 80-85. doi:10.1016/j.chemosphere.2017.06.013
    • NLM

      Graça CAL, Velosa AC de, Teixeira ACSC. Role of Fe(III)-carboxylates in AMZ photodegradation: a response surface study based on a Doehlert experimental design [Internet]. Chemosphere. 2017 ; 280 80-85.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2017.06.013
    • Vancouver

      Graça CAL, Velosa AC de, Teixeira ACSC. Role of Fe(III)-carboxylates in AMZ photodegradation: a response surface study based on a Doehlert experimental design [Internet]. Chemosphere. 2017 ; 280 80-85.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2017.06.013
  • Source: Chemosphere. Unidade: EP

    Subjects: TRATAMENTO DE ÁGUAS RESIDUÁRIAS, ÁCIDOS

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    • ABNT

      MORA, Verónica Cecilia et al. Thermally activated peroxydisulfate in the presence of additives: A clean method for the degradation of pollutants. Chemosphere, v. 75, n. 10, p. 1405-1409, 2009Tradução . . Disponível em: https://doi.org/10.1016/j.chemosphere.2009.02.038. Acesso em: 13 nov. 2024.
    • APA

      Mora, V. C., Rosso, J. A., Carrillo Le Roux, G. A., Mártire, D. O., & González, M. C. (2009). Thermally activated peroxydisulfate in the presence of additives: A clean method for the degradation of pollutants. Chemosphere, 75( 10), 1405-1409. doi:10.1016/j.chemosphere.2009.02.038
    • NLM

      Mora VC, Rosso JA, Carrillo Le Roux GA, Mártire DO, González MC. Thermally activated peroxydisulfate in the presence of additives: A clean method for the degradation of pollutants [Internet]. Chemosphere. 2009 ; 75( 10): 1405-1409.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2009.02.038
    • Vancouver

      Mora VC, Rosso JA, Carrillo Le Roux GA, Mártire DO, González MC. Thermally activated peroxydisulfate in the presence of additives: A clean method for the degradation of pollutants [Internet]. Chemosphere. 2009 ; 75( 10): 1405-1409.[citado 2024 nov. 13 ] Available from: https://doi.org/10.1016/j.chemosphere.2009.02.038

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