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Artigo de periodico
Magnetic nanohydrometallurgy: principles and concepts applied to metal ion separation and recovery (2025)
Toma, Henrique Eisi
Fonte: Chemical Engineering Research and Design. Unidade: IQ
Assuntos: NANOPARTÍCULAS, LANTANÍDIOS, OURO
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ABNT
TOMA, Henrique Eisi. Magnetic nanohydrometallurgy: principles and concepts applied to metal ion separation and recovery. Chemical Engineering Research and Design, v. 216, p. 251–269, 2025Tradução . . Disponível em: https://dx.doi.org/10.1016/j.cherd.2025.03.003. Acesso em: 09 nov. 2025.
APA
Toma, H. E. (2025). Magnetic nanohydrometallurgy: principles and concepts applied to metal ion separation and recovery. Chemical Engineering Research and Design, 216, 251–269. doi:10.1016/j.cherd.2025.03.003
NLM
Toma HE. Magnetic nanohydrometallurgy: principles and concepts applied to metal ion separation and recovery [Internet]. Chemical Engineering Research and Design. 2025 ; 216 251–269.[citado 2025 nov. 09 ] Available from: https://dx.doi.org/10.1016/j.cherd.2025.03.003
Vancouver
Toma HE. Magnetic nanohydrometallurgy: principles and concepts applied to metal ion separation and recovery [Internet]. Chemical Engineering Research and Design. 2025 ; 216 251–269.[citado 2025 nov. 09 ] Available from: https://dx.doi.org/10.1016/j.cherd.2025.03.003
Artigo de periodico
Improvements to the Pioglitazone synthetic route using microreactor technology and aspects of green chemistry (2025)
Silva, Renan Rodrigues de Oliveira ; Meira, Paula Almeida ; Merfels, Christian Adrian; Palma, Mauri Sérgio Alves
Fonte: Chemical Engineering Research and Design. Unidade: FCF
Assuntos: QUÍMICA VERDE, CINÉTICA
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ABNT
SILVA, Renan Rodrigues de Oliveira et al. Improvements to the Pioglitazone synthetic route using microreactor technology and aspects of green chemistry. Chemical Engineering Research and Design, v. 218, p. 697-706, 2025Tradução . . Disponível em: https://dx.doi.org/10.1016/j.cherd.2025.05.002. Acesso em: 09 nov. 2025.
APA
Silva, R. R. de O., Meira, P. A., Merfels, C. A., & Palma, M. S. A. (2025). Improvements to the Pioglitazone synthetic route using microreactor technology and aspects of green chemistry. Chemical Engineering Research and Design, 218, 697-706. doi:10.1016/j.cherd.2025.05.002
NLM
Silva RR de O, Meira PA, Merfels CA, Palma MSA. Improvements to the Pioglitazone synthetic route using microreactor technology and aspects of green chemistry [Internet]. Chemical Engineering Research and Design. 2025 ; 218 697-706.[citado 2025 nov. 09 ] Available from: https://dx.doi.org/10.1016/j.cherd.2025.05.002
Vancouver
Silva RR de O, Meira PA, Merfels CA, Palma MSA. Improvements to the Pioglitazone synthetic route using microreactor technology and aspects of green chemistry [Internet]. Chemical Engineering Research and Design. 2025 ; 218 697-706.[citado 2025 nov. 09 ] Available from: https://dx.doi.org/10.1016/j.cherd.2025.05.002
Artigo de periodico
Process intensification in flow chemistry using micro and millidevices: numerical simulations of the syntheses of three different intermediate API compounds for diabetes mellitus drug production (2024)
Silva Junior, João Lameu; Calvo, Paulo Victor Cuesta ; Palma, Mauri Sérgio Alves ; Lopes, Mariana G. M; Santana, Harrson S
Fonte: Chemical Engineering Research and Design. Unidade: FCF
Assuntos: DIABETES MELLITUS, SÍNTESE QUÍMICA, QUÍMICA FINA
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ABNT
SILVA JUNIOR, João Lameu et al. Process intensification in flow chemistry using micro and millidevices: numerical simulations of the syntheses of three different intermediate API compounds for diabetes mellitus drug production. Chemical Engineering Research and Design, v. 205, p. 401–412, 2024Tradução . . Disponível em: https://dx.doi.org/10.1016/j.cherd.2024.04.007. Acesso em: 09 nov. 2025.
APA
Silva Junior, J. L., Calvo, P. V. C., Palma, M. S. A., Lopes, M. G. M., & Santana, H. S. (2024). Process intensification in flow chemistry using micro and millidevices: numerical simulations of the syntheses of three different intermediate API compounds for diabetes mellitus drug production. Chemical Engineering Research and Design, 205, 401–412. doi:10.1016/j.cherd.2024.04.007
NLM
Silva Junior JL, Calvo PVC, Palma MSA, Lopes MGM, Santana HS. Process intensification in flow chemistry using micro and millidevices: numerical simulations of the syntheses of three different intermediate API compounds for diabetes mellitus drug production [Internet]. Chemical Engineering Research and Design. 2024 ; 205 401–412.[citado 2025 nov. 09 ] Available from: https://dx.doi.org/10.1016/j.cherd.2024.04.007
Vancouver
Silva Junior JL, Calvo PVC, Palma MSA, Lopes MGM, Santana HS. Process intensification in flow chemistry using micro and millidevices: numerical simulations of the syntheses of three different intermediate API compounds for diabetes mellitus drug production [Internet]. Chemical Engineering Research and Design. 2024 ; 205 401–412.[citado 2025 nov. 09 ] Available from: https://dx.doi.org/10.1016/j.cherd.2024.04.007
Artigo de periodico
Glycerol carbonate synthesis over nanostructured titanate catalysts: effect of morphology and structure of catalyst (2023)
Scheid, Carolina Majolo; Monteiro , Wesley Formentin; Vieira, Michele Oliveira; Alban, Luisa; Luza, Leandro; Eberhardt, Dario; Gonçalves, Renato Vitalino ; Feil, Adriano Friedrich; Lima, Jeane Estela Ayres de; Ligabue, Rosane Angelica
Fonte: Chemical Engineering Research and Design. Unidade: IFSC
Assuntos: CATÁLISE, NANOPARTÍCULAS, CARBONO
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ABNT
SCHEID, Carolina Majolo et al. Glycerol carbonate synthesis over nanostructured titanate catalysts: effect of morphology and structure of catalyst. Chemical Engineering Research and Design, v. 197, p. 392-404, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.cherd.2023.07.039. Acesso em: 09 nov. 2025.
APA
Scheid, C. M., Monteiro , W. F., Vieira, M. O., Alban, L., Luza, L., Eberhardt, D., et al. (2023). Glycerol carbonate synthesis over nanostructured titanate catalysts: effect of morphology and structure of catalyst. Chemical Engineering Research and Design, 197, 392-404. doi:10.1016/j.cherd.2023.07.039
NLM
Scheid CM, Monteiro WF, Vieira MO, Alban L, Luza L, Eberhardt D, Gonçalves RV, Feil AF, Lima JEA de, Ligabue RA. Glycerol carbonate synthesis over nanostructured titanate catalysts: effect of morphology and structure of catalyst [Internet]. Chemical Engineering Research and Design. 2023 ; 197 392-404.[citado 2025 nov. 09 ] Available from: https://doi.org/10.1016/j.cherd.2023.07.039
Vancouver
Scheid CM, Monteiro WF, Vieira MO, Alban L, Luza L, Eberhardt D, Gonçalves RV, Feil AF, Lima JEA de, Ligabue RA. Glycerol carbonate synthesis over nanostructured titanate catalysts: effect of morphology and structure of catalyst [Internet]. Chemical Engineering Research and Design. 2023 ; 197 392-404.[citado 2025 nov. 09 ] Available from: https://doi.org/10.1016/j.cherd.2023.07.039
Artigo de periodico
Rheological profile in mixer torque rheometer of samples containing furazolidone and different binders (2020)
Belem, Bruna R; Ferraz, Humberto Gomes
Fonte: Chemical Engineering Research and Design. Unidade: FCF
Assuntos: LIGANTES, ENGENHARIA QUÍMICA
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
BELEM, Bruna R e FERRAZ, Humberto Gomes. Rheological profile in mixer torque rheometer of samples containing furazolidone and different binders. Chemical Engineering Research and Design, v. 160, p. 533–539, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.cherd.2020.06.022. Acesso em: 09 nov. 2025.
APA
Belem, B. R., & Ferraz, H. G. (2020). Rheological profile in mixer torque rheometer of samples containing furazolidone and different binders. Chemical Engineering Research and Design, 160, 533–539. doi:10.1016/j.cherd.2020.06.022
NLM
Belem BR, Ferraz HG. Rheological profile in mixer torque rheometer of samples containing furazolidone and different binders [Internet]. Chemical Engineering Research and Design. 2020 ; 160 533–539.[citado 2025 nov. 09 ] Available from: https://doi.org/10.1016/j.cherd.2020.06.022
Vancouver
Belem BR, Ferraz HG. Rheological profile in mixer torque rheometer of samples containing furazolidone and different binders [Internet]. Chemical Engineering Research and Design. 2020 ; 160 533–539.[citado 2025 nov. 09 ] Available from: https://doi.org/10.1016/j.cherd.2020.06.022

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