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  • Source: Journal of Thermal Analysis and Calorimetry. Unidade: IQSC

    Subjects: QUÍMICA, ANÁLISE TÉRMICA

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      Journal of Thermal Analysis and Calorimetry. Journal of Thermal Analysis and Calorimetry. Budapeste: Instituto de Química de São Carlos, Universidade de São Paulo. Disponível em: https://link.springer.com/journal/10973/editors. Acesso em: 26 dez. 2024. , 2024
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      Journal of Thermal Analysis and Calorimetry. (2024). Journal of Thermal Analysis and Calorimetry. Journal of Thermal Analysis and Calorimetry. Budapeste: Instituto de Química de São Carlos, Universidade de São Paulo. Recuperado de https://link.springer.com/journal/10973/editors
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      Journal of Thermal Analysis and Calorimetry [Internet]. Journal of Thermal Analysis and Calorimetry. 2024 ;[citado 2024 dez. 26 ] Available from: https://link.springer.com/journal/10973/editors
    • Vancouver

      Journal of Thermal Analysis and Calorimetry [Internet]. Journal of Thermal Analysis and Calorimetry. 2024 ;[citado 2024 dez. 26 ] Available from: https://link.springer.com/journal/10973/editors
  • Source: Journal of Thermal Analysis and Calorimetry. Unidade: IQSC

    Subjects: QUÍMICA, FÍSICO-QUÍMICA

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      Journal of Thermal Analysis and Calorimetry. Journal of Thermal Analysis and Calorimetry. Budapeste: Instituto de Química de São Carlos, Universidade de São Paulo. Disponível em: https://www.springer.com/journal/10973/editors. Acesso em: 26 dez. 2024. , 2023
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      Journal of Thermal Analysis and Calorimetry. (2023). Journal of Thermal Analysis and Calorimetry. Journal of Thermal Analysis and Calorimetry. Budapeste: Instituto de Química de São Carlos, Universidade de São Paulo. Recuperado de https://www.springer.com/journal/10973/editors
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      Journal of Thermal Analysis and Calorimetry [Internet]. Journal of Thermal Analysis and Calorimetry. 2023 ;[citado 2024 dez. 26 ] Available from: https://www.springer.com/journal/10973/editors
    • Vancouver

      Journal of Thermal Analysis and Calorimetry [Internet]. Journal of Thermal Analysis and Calorimetry. 2023 ;[citado 2024 dez. 26 ] Available from: https://www.springer.com/journal/10973/editors
  • Source: Journal of Molecular Structure. Unidade: IQSC

    Subjects: DIFRAÇÃO POR RAIOS X, ELETRÔNICA

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      FERNANDES, André G. de A et al. Oxorhenium(V) complexes with a benzyldithiocarbazate ligand: synthesis, crystal structure, spectroscopic and DFT analyses. Journal of Molecular Structure, v. 1250, n. 3, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.molstruc.2021.131875. Acesso em: 26 dez. 2024.
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      Fernandes, A. G. de A., Viana, R. B., Moreno-Fuquen, R., Gatto, C. C., Lang, E. S., Módolo, M., et al. (2022). Oxorhenium(V) complexes with a benzyldithiocarbazate ligand: synthesis, crystal structure, spectroscopic and DFT analyses. Journal of Molecular Structure, 1250( 3). doi:10.1016/j.molstruc.2021.131875
    • NLM

      Fernandes AG de A, Viana RB, Moreno-Fuquen R, Gatto CC, Lang ES, Módolo M, Silva AK da, Lemos SS, Hagenbach A, Abram U, Deflon VM. Oxorhenium(V) complexes with a benzyldithiocarbazate ligand: synthesis, crystal structure, spectroscopic and DFT analyses [Internet]. Journal of Molecular Structure. 2022 ; 1250( 3):[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.molstruc.2021.131875
    • Vancouver

      Fernandes AG de A, Viana RB, Moreno-Fuquen R, Gatto CC, Lang ES, Módolo M, Silva AK da, Lemos SS, Hagenbach A, Abram U, Deflon VM. Oxorhenium(V) complexes with a benzyldithiocarbazate ligand: synthesis, crystal structure, spectroscopic and DFT analyses [Internet]. Journal of Molecular Structure. 2022 ; 1250( 3):[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.molstruc.2021.131875
  • Source: Journal of Thermal Analysis and Calorimetry. Unidade: IQSC

    Subjects: QUÍMICA, FÍSICO-QUÍMICA

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      Journal of Thermal Analysis and Calorimetry. Journal of Thermal Analysis and Calorimetry. Budapeste: Instituto de Química de São Carlos, Universidade de São Paulo. Disponível em: https://www.springer.com/journal/10973/editors. Acesso em: 26 dez. 2024. , 2022
    • APA

      Journal of Thermal Analysis and Calorimetry. (2022). Journal of Thermal Analysis and Calorimetry. Journal of Thermal Analysis and Calorimetry. Budapeste: Instituto de Química de São Carlos, Universidade de São Paulo. Recuperado de https://www.springer.com/journal/10973/editors
    • NLM

      Journal of Thermal Analysis and Calorimetry [Internet]. Journal of Thermal Analysis and Calorimetry. 2022 ;[citado 2024 dez. 26 ] Available from: https://www.springer.com/journal/10973/editors
    • Vancouver

      Journal of Thermal Analysis and Calorimetry [Internet]. Journal of Thermal Analysis and Calorimetry. 2022 ;[citado 2024 dez. 26 ] Available from: https://www.springer.com/journal/10973/editors
  • Source: Micromachines. Unidade: IQSC

    Subjects: POLIÉSTER, VIDRO

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      LING, Ma Hui et al. Rapid Fabrication of Microfluidic Devices for Biological Mimicking: A Survey of Materials and Biocompatibility. Micromachines, v. 12, n. 3, p. 346, 2021Tradução . . Disponível em: https://doi.org/10.3390/mi12030346. Acesso em: 26 dez. 2024.
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      Ling, M. H., Urbaczek, A. C., Souza, F. Z. R. de, Leão, P. A. G. G. C., Perussi, J. R., & Carrilho, E. (2021). Rapid Fabrication of Microfluidic Devices for Biological Mimicking: A Survey of Materials and Biocompatibility. Micromachines, 12( 3), 346. doi:10.3390/mi12030346
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      Ling MH, Urbaczek AC, Souza FZR de, Leão PAGGC, Perussi JR, Carrilho E. Rapid Fabrication of Microfluidic Devices for Biological Mimicking: A Survey of Materials and Biocompatibility [Internet]. Micromachines. 2021 ; 12( 3): 346.[citado 2024 dez. 26 ] Available from: https://doi.org/10.3390/mi12030346
    • Vancouver

      Ling MH, Urbaczek AC, Souza FZR de, Leão PAGGC, Perussi JR, Carrilho E. Rapid Fabrication of Microfluidic Devices for Biological Mimicking: A Survey of Materials and Biocompatibility [Internet]. Micromachines. 2021 ; 12( 3): 346.[citado 2024 dez. 26 ] Available from: https://doi.org/10.3390/mi12030346
  • Source: Journal of Chromatography A. Unidade: IQSC

    Subjects: CROMATOGRAFIA LÍQUIDA, ESPECTROMETRIA DE MASSAS

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      MEDINA, Deyber Arley Vargas et al. An overview of open tubular liquid chromatography with a focus on the coupling with mass spectrometry for the analysis of small molecules. Journal of Chromatography A, v. 1641, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.chroma.2021.461989. Acesso em: 26 dez. 2024.
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      Medina, D. A. V., Santos, N. G. P. dos, Burato, J. S. da S., Borsatto, J. V. B., & Lanças, F. M. (2021). An overview of open tubular liquid chromatography with a focus on the coupling with mass spectrometry for the analysis of small molecules. Journal of Chromatography A, 1641. doi:10.1016/j.chroma.2021.461989
    • NLM

      Medina DAV, Santos NGP dos, Burato JS da S, Borsatto JVB, Lanças FM. An overview of open tubular liquid chromatography with a focus on the coupling with mass spectrometry for the analysis of small molecules [Internet]. Journal of Chromatography A. 2021 ; 1641[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.chroma.2021.461989
    • Vancouver

      Medina DAV, Santos NGP dos, Burato JS da S, Borsatto JVB, Lanças FM. An overview of open tubular liquid chromatography with a focus on the coupling with mass spectrometry for the analysis of small molecules [Internet]. Journal of Chromatography A. 2021 ; 1641[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.chroma.2021.461989
  • Source: Organic letters. Unidade: IQSC

    Subjects: LUZ, FOTOQUÍMICA

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      MUNARETTO, Laieli S et al. Visible-Light-Mediated Strategies to Assemble Alkyl 2-Carboxylate-2,3,3-Trisubstituted β-Lactams and 5-Alkoxy-2,2,4-Trisubstituted Furan-3(2H)-ones Using Aryldiazoacetates and Aryldiazoketones. Organic letters, v. 23, n. 23, p. 9292–9296, 2021Tradução . . Disponível em: https://doi.org/10.1021/acs.orglett.1c03662. Acesso em: 26 dez. 2024.
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      Munaretto, L. S., Santos, C. Y. dos, Gallo, R. D. C., Okada Junior, C. Y., Deflon, V. M., & Jurberg, I. D. (2021). Visible-Light-Mediated Strategies to Assemble Alkyl 2-Carboxylate-2,3,3-Trisubstituted β-Lactams and 5-Alkoxy-2,2,4-Trisubstituted Furan-3(2H)-ones Using Aryldiazoacetates and Aryldiazoketones. Organic letters, 23( 23), 9292–9296. doi:10.1021/acs.orglett.1c03662
    • NLM

      Munaretto LS, Santos CY dos, Gallo RDC, Okada Junior CY, Deflon VM, Jurberg ID. Visible-Light-Mediated Strategies to Assemble Alkyl 2-Carboxylate-2,3,3-Trisubstituted β-Lactams and 5-Alkoxy-2,2,4-Trisubstituted Furan-3(2H)-ones Using Aryldiazoacetates and Aryldiazoketones [Internet]. Organic letters. 2021 ; 23( 23): 9292–9296.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1021/acs.orglett.1c03662
    • Vancouver

      Munaretto LS, Santos CY dos, Gallo RDC, Okada Junior CY, Deflon VM, Jurberg ID. Visible-Light-Mediated Strategies to Assemble Alkyl 2-Carboxylate-2,3,3-Trisubstituted β-Lactams and 5-Alkoxy-2,2,4-Trisubstituted Furan-3(2H)-ones Using Aryldiazoacetates and Aryldiazoketones [Internet]. Organic letters. 2021 ; 23( 23): 9292–9296.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1021/acs.orglett.1c03662
  • Source: Journal of Electroanalytical Chemistry. Unidade: IQSC

    Subjects: ELETROQUÍMICA, POLUIÇÃO AMBIENTAL

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      GOULART, Lorena Athie et al. Photocatalytic performance of Ti/MMO/ZnO at degradation of levofloxacin: Effect of pH and chloride anions. Journal of Electroanalytical Chemistry, v. 880, n. ja 2021, p. 114894, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.jelechem.2020.114894. Acesso em: 26 dez. 2024.
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      Goulart, L. A., Moratalla, A., Lanza, M. R. de V., Sáez, C., & Rodrigo, M. A. (2021). Photocatalytic performance of Ti/MMO/ZnO at degradation of levofloxacin: Effect of pH and chloride anions. Journal of Electroanalytical Chemistry, 880( ja 2021), 114894. doi:10.1016/j.jelechem.2020.114894
    • NLM

      Goulart LA, Moratalla A, Lanza MR de V, Sáez C, Rodrigo MA. Photocatalytic performance of Ti/MMO/ZnO at degradation of levofloxacin: Effect of pH and chloride anions [Internet]. Journal of Electroanalytical Chemistry. 2021 ; 880( ja 2021): 114894.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.jelechem.2020.114894
    • Vancouver

      Goulart LA, Moratalla A, Lanza MR de V, Sáez C, Rodrigo MA. Photocatalytic performance of Ti/MMO/ZnO at degradation of levofloxacin: Effect of pH and chloride anions [Internet]. Journal of Electroanalytical Chemistry. 2021 ; 880( ja 2021): 114894.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.jelechem.2020.114894
  • Source: Journal of Thermal Analysis and Calorimetry. Unidade: IQSC

    Subjects: QUÍMICA, FÍSICO-QUÍMICA

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      Journal of Thermal Analysis and Calorimetry. Journal of Thermal Analysis and Calorimetry. Budapeste: Akademiai Kiado Rt. Disponível em: https://repositorio.usp.br/directbitstream/75bb9b35-e3b1-44bf-bdae-6c413dc7ab71/P19199.pdf. Acesso em: 26 dez. 2024. , 2021
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      Journal of Thermal Analysis and Calorimetry. (2021). Journal of Thermal Analysis and Calorimetry. Journal of Thermal Analysis and Calorimetry. Budapeste: Akademiai Kiado Rt. Recuperado de https://repositorio.usp.br/directbitstream/75bb9b35-e3b1-44bf-bdae-6c413dc7ab71/P19199.pdf
    • NLM

      Journal of Thermal Analysis and Calorimetry [Internet]. Journal of Thermal Analysis and Calorimetry. 2021 ;[citado 2024 dez. 26 ] Available from: https://repositorio.usp.br/directbitstream/75bb9b35-e3b1-44bf-bdae-6c413dc7ab71/P19199.pdf
    • Vancouver

      Journal of Thermal Analysis and Calorimetry [Internet]. Journal of Thermal Analysis and Calorimetry. 2021 ;[citado 2024 dez. 26 ] Available from: https://repositorio.usp.br/directbitstream/75bb9b35-e3b1-44bf-bdae-6c413dc7ab71/P19199.pdf
  • Source: Journal of Electroanalytical Chemistry. Unidades: IQSC, PUSP-SC

    Subjects: TRATAMENTO DE ÁGUA, ELETROQUÍMICA

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      COSTA, Aline Jorge Menezes da et al. Treatment of Tebuthiuron in synthetic and real wastewater using electrochemical flow-by reactor. Journal of Electroanalytical Chemistry, v. fe 2021, p. 114978, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.jelechem.2021.114978. Acesso em: 26 dez. 2024.
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      Costa, A. J. M. da, Kronka, M. S., Cordeiro Junior, P. J. M., Fortunato, G. V., Santos, A. J. dos, & Lanza, M. R. de V. (2021). Treatment of Tebuthiuron in synthetic and real wastewater using electrochemical flow-by reactor. Journal of Electroanalytical Chemistry, fe 2021, 114978. doi:10.1016/j.jelechem.2021.114978
    • NLM

      Costa AJM da, Kronka MS, Cordeiro Junior PJM, Fortunato GV, Santos AJ dos, Lanza MR de V. Treatment of Tebuthiuron in synthetic and real wastewater using electrochemical flow-by reactor [Internet]. Journal of Electroanalytical Chemistry. 2021 ; fe 2021 114978.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.jelechem.2021.114978
    • Vancouver

      Costa AJM da, Kronka MS, Cordeiro Junior PJM, Fortunato GV, Santos AJ dos, Lanza MR de V. Treatment of Tebuthiuron in synthetic and real wastewater using electrochemical flow-by reactor [Internet]. Journal of Electroanalytical Chemistry. 2021 ; fe 2021 114978.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.jelechem.2021.114978
  • Source: Organic letters. Unidade: IQSC

    Assunto: LUZ

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      GALLO, Rafael D. C et al. A Selective C–C Bond Cleavage Strategy Promoted by Visible Light. Organic letters, v. 23, n. 22, p. 8916–8920, 2021Tradução . . Disponível em: https://doi-org.ez67.periodicos.capes.gov.br/10.1021/acs.orglett.1c03406. Acesso em: 26 dez. 2024.
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      Gallo, R. D. C., Duarte, M., Silva, A. F. da, Okada Junior, C. Y., & Deflon, V. M. (2021). A Selective C–C Bond Cleavage Strategy Promoted by Visible Light. Organic letters, 23( 22), 8916–8920. doi:10.1021/acs.orglett.1c03406
    • NLM

      Gallo RDC, Duarte M, Silva AF da, Okada Junior CY, Deflon VM. A Selective C–C Bond Cleavage Strategy Promoted by Visible Light [Internet]. Organic letters. 2021 ; 23( 22): 8916–8920.[citado 2024 dez. 26 ] Available from: https://doi-org.ez67.periodicos.capes.gov.br/10.1021/acs.orglett.1c03406
    • Vancouver

      Gallo RDC, Duarte M, Silva AF da, Okada Junior CY, Deflon VM. A Selective C–C Bond Cleavage Strategy Promoted by Visible Light [Internet]. Organic letters. 2021 ; 23( 22): 8916–8920.[citado 2024 dez. 26 ] Available from: https://doi-org.ez67.periodicos.capes.gov.br/10.1021/acs.orglett.1c03406
  • Source: Journal of Molecular Structure. Unidade: IQSC

    Assunto: QUÍMICA TEÓRICA

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      STEFFLER, Fernando e HAIDUKE, Roberto Luiz Andrade. Investigating the electronic excitations in Polyoxoniobates: (Nb6O19)8−, (Nb10O28)6− and (XNb12O40)Y with (X=As, P, Si, Ge) and (Y=15- and 16-). Journal of Molecular Structure, v. 1246, p. 131156, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.molstruc.2021.131156. Acesso em: 26 dez. 2024.
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      Steffler, F., & Haiduke, R. L. A. (2021). Investigating the electronic excitations in Polyoxoniobates: (Nb6O19)8−, (Nb10O28)6− and (XNb12O40)Y with (X=As, P, Si, Ge) and (Y=15- and 16-). Journal of Molecular Structure, 1246, 131156. doi:10.1016/j.molstruc.2021.131156
    • NLM

      Steffler F, Haiduke RLA. Investigating the electronic excitations in Polyoxoniobates: (Nb6O19)8−, (Nb10O28)6− and (XNb12O40)Y with (X=As, P, Si, Ge) and (Y=15- and 16-) [Internet]. Journal of Molecular Structure. 2021 ; 1246 131156.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.molstruc.2021.131156
    • Vancouver

      Steffler F, Haiduke RLA. Investigating the electronic excitations in Polyoxoniobates: (Nb6O19)8−, (Nb10O28)6− and (XNb12O40)Y with (X=As, P, Si, Ge) and (Y=15- and 16-) [Internet]. Journal of Molecular Structure. 2021 ; 1246 131156.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.molstruc.2021.131156
  • Source: Microchemical Journal. Unidade: IQSC

    Assunto: QUÍMICA

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      Microchemical Journal. Microchemical Journal. New Jersey: Elsevier. Disponível em: https://repositorio.usp.br/directbitstream/4fdcaa45-20f8-4ca9-b0c8-89bb73f5d15d/P19203.pdf. Acesso em: 26 dez. 2024. , 2021
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      Microchemical Journal. (2021). Microchemical Journal. Microchemical Journal. New Jersey: Elsevier. Recuperado de https://repositorio.usp.br/directbitstream/4fdcaa45-20f8-4ca9-b0c8-89bb73f5d15d/P19203.pdf
    • NLM

      Microchemical Journal [Internet]. Microchemical Journal. 2021 ;[citado 2024 dez. 26 ] Available from: https://repositorio.usp.br/directbitstream/4fdcaa45-20f8-4ca9-b0c8-89bb73f5d15d/P19203.pdf
    • Vancouver

      Microchemical Journal [Internet]. Microchemical Journal. 2021 ;[citado 2024 dez. 26 ] Available from: https://repositorio.usp.br/directbitstream/4fdcaa45-20f8-4ca9-b0c8-89bb73f5d15d/P19203.pdf
  • Source: Food Research International. Unidades: IQSC, ESALQ, IB

    Subjects: AMINOÁCIDOS, ANÁLISE SENSORIAL DE ALIMENTOS, COGUMELOS COMESTÍVEIS, DESIDRATAÇÃO DE ALIMENTOS, NUCLEOTÍDEOS, PERCEPÇÃO DO PALADAR, RESÍDUOS INDUSTRIAIS

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      PADERMO, Samara dos Santos Harada et al. Umami ingredient: flavor enhancer from shiitake (Lentinula edodes) byproducts. Food Research International, v. 137, p. 1-8, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.foodres.2020.109540. Acesso em: 26 dez. 2024.
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      Padermo, S. dos S. H., Faceto, L. S. D., Selani, M. M., Alvim, I. D., Floh, E. I. S., Macedo, A. F., et al. (2020). Umami ingredient: flavor enhancer from shiitake (Lentinula edodes) byproducts. Food Research International, 137, 1-8. doi:10.1016/j.foodres.2020.109540
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      Padermo S dos SH, Faceto LSD, Selani MM, Alvim ID, Floh EIS, Macedo AF, Bogusz Junior S, Dias CT dos S, Silva ACC e, Vieira TMF de S. Umami ingredient: flavor enhancer from shiitake (Lentinula edodes) byproducts [Internet]. Food Research International. 2020 ; 137 1-8.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.foodres.2020.109540
    • Vancouver

      Padermo S dos SH, Faceto LSD, Selani MM, Alvim ID, Floh EIS, Macedo AF, Bogusz Junior S, Dias CT dos S, Silva ACC e, Vieira TMF de S. Umami ingredient: flavor enhancer from shiitake (Lentinula edodes) byproducts [Internet]. Food Research International. 2020 ; 137 1-8.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.foodres.2020.109540
  • Source: Applied Spectroscopy. Unidade: IQSC

    Subjects: MICROSCOPIA ELETRÔNICA DE VARREDURA, FLUORESCÊNCIA

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      YSNAGA, Orlando Elguera et al. Qualitative and Semiquantitative Determination of the Atomic and Molecular Tungsten Distributions in Hybrid Hydroxyurethanes–Poly(dimethylsiloxane) Films Containing Phosphotungstates ([PW12O40]3–). Applied Spectroscopy, v. 74, n. 12, p. 1515-1529, 2020Tradução . . Disponível em: https://doi.org/10.1177/0003702820945018. Acesso em: 26 dez. 2024.
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      Ysnaga, O. E., Aguiar, K. M. F. R. de, Zamboni, C. B., Polito, W. L., & Rodrigues Filho, U. P. (2020). Qualitative and Semiquantitative Determination of the Atomic and Molecular Tungsten Distributions in Hybrid Hydroxyurethanes–Poly(dimethylsiloxane) Films Containing Phosphotungstates ([PW12O40]3–). Applied Spectroscopy, 74( 12), 1515-1529. doi:10.1177/0003702820945018
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      Ysnaga OE, Aguiar KMFR de, Zamboni CB, Polito WL, Rodrigues Filho UP. Qualitative and Semiquantitative Determination of the Atomic and Molecular Tungsten Distributions in Hybrid Hydroxyurethanes–Poly(dimethylsiloxane) Films Containing Phosphotungstates ([PW12O40]3–) [Internet]. Applied Spectroscopy. 2020 ; 74( 12): 1515-1529.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1177/0003702820945018
    • Vancouver

      Ysnaga OE, Aguiar KMFR de, Zamboni CB, Polito WL, Rodrigues Filho UP. Qualitative and Semiquantitative Determination of the Atomic and Molecular Tungsten Distributions in Hybrid Hydroxyurethanes–Poly(dimethylsiloxane) Films Containing Phosphotungstates ([PW12O40]3–) [Internet]. Applied Spectroscopy. 2020 ; 74( 12): 1515-1529.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1177/0003702820945018
  • Source: Microchemical Journal. Unidade: IQSC

    Assunto: QUÍMICA

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      Microchemical Journal. Microchemical Journal. New Jersey: Elsevier. Disponível em: https://repositorio.usp.br/directbitstream/bfcd532c-d382-46d2-8e22-d4b69a3f1b89/P18665.pdf. Acesso em: 26 dez. 2024. , 2020
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      Microchemical Journal. (2020). Microchemical Journal. Microchemical Journal. New Jersey: Elsevier. Recuperado de https://repositorio.usp.br/directbitstream/bfcd532c-d382-46d2-8e22-d4b69a3f1b89/P18665.pdf
    • NLM

      Microchemical Journal [Internet]. Microchemical Journal. 2020 ;[citado 2024 dez. 26 ] Available from: https://repositorio.usp.br/directbitstream/bfcd532c-d382-46d2-8e22-d4b69a3f1b89/P18665.pdf
    • Vancouver

      Microchemical Journal [Internet]. Microchemical Journal. 2020 ;[citado 2024 dez. 26 ] Available from: https://repositorio.usp.br/directbitstream/bfcd532c-d382-46d2-8e22-d4b69a3f1b89/P18665.pdf
  • Source: Experimental Parasitology. Unidades: FCFRP, IQSC, BIOENGENHARIA, EESC

    Assunto: DOENÇA DE CHAGAS

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      QUILLES JUNIOR, José Carlos et al. Dipeptidyl nitrile derivatives suppress the Trypanosoma cruzi in vitro infection. Experimental Parasitology, v. 219, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.exppara.2020.108032. Acesso em: 26 dez. 2024.
    • APA

      Quilles Junior, J. C., Shamim, A., Tezuka, D. Y., Batista, P. H. J., Lopes, C. D., Albuquerque, S. de, et al. (2020). Dipeptidyl nitrile derivatives suppress the Trypanosoma cruzi in vitro infection. Experimental Parasitology, 219. doi:10.1016/j.exppara.2020.108032
    • NLM

      Quilles Junior JC, Shamim A, Tezuka DY, Batista PHJ, Lopes CD, Albuquerque S de, Montanari CA, Leitão A. Dipeptidyl nitrile derivatives suppress the Trypanosoma cruzi in vitro infection [Internet]. Experimental Parasitology. 2020 ; 219[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.exppara.2020.108032
    • Vancouver

      Quilles Junior JC, Shamim A, Tezuka DY, Batista PHJ, Lopes CD, Albuquerque S de, Montanari CA, Leitão A. Dipeptidyl nitrile derivatives suppress the Trypanosoma cruzi in vitro infection [Internet]. Experimental Parasitology. 2020 ; 219[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.exppara.2020.108032
  • Source: Saudi Pharmaceutical Journal. Unidade: IQSC

    Assunto: ANTIOXIDANTES

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      QUEIROZ, Aureikson N et al. Experimental and theoretical study on structure-tautomerism among edaravone, isoxazolone, and their heterocycles derivatives as antioxidants. Saudi Pharmaceutical Journal, v. 28, n. 7, p. 819-827, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.jsps.2020.06.001. Acesso em: 26 dez. 2024.
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      Queiroz, A. N., Martins, C. C., Santos, K. L. B. dos, Carvalho, E. S., Owiti, A. O., Oliveira, K. R. M., et al. (2020). Experimental and theoretical study on structure-tautomerism among edaravone, isoxazolone, and their heterocycles derivatives as antioxidants. Saudi Pharmaceutical Journal, 28( 7), 819-827. doi:10.1016/j.jsps.2020.06.001
    • NLM

      Queiroz AN, Martins CC, Santos KLB dos, Carvalho ES, Owiti AO, Oliveira KRM, Herculano AM, Silva ABF da, Borges RS. Experimental and theoretical study on structure-tautomerism among edaravone, isoxazolone, and their heterocycles derivatives as antioxidants [Internet]. Saudi Pharmaceutical Journal. 2020 ; 28( 7): 819-827.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.jsps.2020.06.001
    • Vancouver

      Queiroz AN, Martins CC, Santos KLB dos, Carvalho ES, Owiti AO, Oliveira KRM, Herculano AM, Silva ABF da, Borges RS. Experimental and theoretical study on structure-tautomerism among edaravone, isoxazolone, and their heterocycles derivatives as antioxidants [Internet]. Saudi Pharmaceutical Journal. 2020 ; 28( 7): 819-827.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.jsps.2020.06.001
  • Source: Journal of Chromatography A. Unidade: IQSC

    Subjects: CROMATOGRAFIA LÍQUIDA, ESPECTROMETRIA DE MASSAS, CAFÉ

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      MEJÍA-CARMONA, Karen e LANÇAS, Fernando Mauro. Modified graphene-silica as a sorbent for in-tube solid-phase microextraction coupled to liquid chromatography-tandem mass spectrometry: Determination of xanthines in coffee beverages. Journal of Chromatography A, v. 1621, n. j 2020, p. 461089, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.chroma.2020.461089. Acesso em: 26 dez. 2024.
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      Mejía-Carmona, K., & Lanças, F. M. (2020). Modified graphene-silica as a sorbent for in-tube solid-phase microextraction coupled to liquid chromatography-tandem mass spectrometry: Determination of xanthines in coffee beverages. Journal of Chromatography A, 1621( j 2020), 461089. doi:10.1016/j.chroma.2020.461089
    • NLM

      Mejía-Carmona K, Lanças FM. Modified graphene-silica as a sorbent for in-tube solid-phase microextraction coupled to liquid chromatography-tandem mass spectrometry: Determination of xanthines in coffee beverages [Internet]. Journal of Chromatography A. 2020 ;1621( j 2020): 461089.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.chroma.2020.461089
    • Vancouver

      Mejía-Carmona K, Lanças FM. Modified graphene-silica as a sorbent for in-tube solid-phase microextraction coupled to liquid chromatography-tandem mass spectrometry: Determination of xanthines in coffee beverages [Internet]. Journal of Chromatography A. 2020 ;1621( j 2020): 461089.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.chroma.2020.461089
  • Source: International Journal of Biological Macromolecules. Unidades: IQSC, BIOENGENHARIA

    Subjects: ANTIOXIDANTES, QUITOSANA, JABUTICABA, GELATINA

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      RODRIGUES, Murilo Álison Vigilato et al. Chitosan and gelatin materials incorporated with phenolic extracts of grape seed and jabuticaba peel: Rheological, physicochemical, antioxidant, antimicrobial and barrier properties. International Journal of Biological Macromolecules, v. 160, p. 769-779, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.ijbiomac.2020.05.240. Acesso em: 26 dez. 2024.
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      Rodrigues, M. Á. V., Bertolo, M. R. V., Marangon, C. A., Martins, V. da C. A., & Plepis, A. M. de G. (2020). Chitosan and gelatin materials incorporated with phenolic extracts of grape seed and jabuticaba peel: Rheological, physicochemical, antioxidant, antimicrobial and barrier properties. International Journal of Biological Macromolecules, 160, 769-779. doi:10.1016/j.ijbiomac.2020.05.240
    • NLM

      Rodrigues MÁV, Bertolo MRV, Marangon CA, Martins V da CA, Plepis AM de G. Chitosan and gelatin materials incorporated with phenolic extracts of grape seed and jabuticaba peel: Rheological, physicochemical, antioxidant, antimicrobial and barrier properties [Internet]. International Journal of Biological Macromolecules. 2020 ; 160 769-779.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.ijbiomac.2020.05.240
    • Vancouver

      Rodrigues MÁV, Bertolo MRV, Marangon CA, Martins V da CA, Plepis AM de G. Chitosan and gelatin materials incorporated with phenolic extracts of grape seed and jabuticaba peel: Rheological, physicochemical, antioxidant, antimicrobial and barrier properties [Internet]. International Journal of Biological Macromolecules. 2020 ; 160 769-779.[citado 2024 dez. 26 ] Available from: https://doi.org/10.1016/j.ijbiomac.2020.05.240

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