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Artigo de periodico
Mathematical Modeling of Alkaline Direct Glycerol Fuel Cells (2023)
Pezzini, Alessandra; Castro, Ubiranilson João de; Oliveira, Deborah S. B. L. de; Tremiliosi Filho, Germano ; Sousa Júnior, Ruy de
Source: Energies. Unidade: IQSC
Subjects: CÉLULAS A COMBUSTÍVEL, REDES NEURAIS
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ABNT
PEZZINI, Alessandra et al. Mathematical Modeling of Alkaline Direct Glycerol Fuel Cells. Energies, v. 16, p. 6762, 2023Tradução . . Disponível em: https://doi.org/10.3390/en16196762. Acesso em: 04 jul. 2024.
APA
Pezzini, A., Castro, U. J. de, Oliveira, D. S. B. L. de, Tremiliosi Filho, G., & Sousa Júnior, R. de. (2023). Mathematical Modeling of Alkaline Direct Glycerol Fuel Cells. Energies, 16, 6762. doi:10.3390/en16196762
NLM
Pezzini A, Castro UJ de, Oliveira DSBL de, Tremiliosi Filho G, Sousa Júnior R de. Mathematical Modeling of Alkaline Direct Glycerol Fuel Cells [Internet]. Energies. 2023 ;16 6762.[citado 2024 jul. 04 ] Available from: https://doi.org/10.3390/en16196762
Vancouver
Pezzini A, Castro UJ de, Oliveira DSBL de, Tremiliosi Filho G, Sousa Júnior R de. Mathematical Modeling of Alkaline Direct Glycerol Fuel Cells [Internet]. Energies. 2023 ;16 6762.[citado 2024 jul. 04 ] Available from: https://doi.org/10.3390/en16196762
Artigo de periodico
Organocatalytic Enantioselective Sulfa-Michael Additions to α,β-Unsaturated Diazoketones (2022)
Momo, Patrícia Betoni ; Mizobuchi,Eduardo F; Echemendía, Radell ; Baddeley, Isabel; Grayson, Matthew N. ; Burtoloso, Antonio Carlos Bender
Source: The Journal of Organic Chemistry. Unidade: IQSC
Subjects: LIPÍDEOS, CROMATOGRAFIA LÍQUIDA, CATÁLISE
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ABNT
MOMO, Patrícia Betoni et al. Organocatalytic Enantioselective Sulfa-Michael Additions to α,β-Unsaturated Diazoketones. The Journal of Organic Chemistry, v. 87, p. 3482−3490, 2022Tradução . . Disponível em: https://doi.org/10.1021/acs.joc.1c03045. Acesso em: 04 jul. 2024.
APA
Momo, P. B., Mizobuchi, E. F., Echemendía, R., Baddeley, I., Grayson, M. N., & Burtoloso, A. C. B. (2022). Organocatalytic Enantioselective Sulfa-Michael Additions to α,β-Unsaturated Diazoketones. The Journal of Organic Chemistry, 87, 3482−3490. doi:10.1021/acs.joc.1c03045
NLM
Momo PB, Mizobuchi EF, Echemendía R, Baddeley I, Grayson MN, Burtoloso ACB. Organocatalytic Enantioselective Sulfa-Michael Additions to α,β-Unsaturated Diazoketones [Internet]. The Journal of Organic Chemistry. 2022 ; 87 3482−3490.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1021/acs.joc.1c03045
Vancouver
Momo PB, Mizobuchi EF, Echemendía R, Baddeley I, Grayson MN, Burtoloso ACB. Organocatalytic Enantioselective Sulfa-Michael Additions to α,β-Unsaturated Diazoketones [Internet]. The Journal of Organic Chemistry. 2022 ; 87 3482−3490.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1021/acs.joc.1c03045
Artigo de periodico
Efficient and irreversible antibody–cysteine bioconjugation using carbonylacrylic reagents (2019)
Bernardim, Barbara; Matos, Maria J; Ferhati, Xhenti; Compañón, Ismael; Guerreiro, Ana; Akkapeddi, Padma; Burtoloso, Antonio Carlos Bender ; Jiménez-Osés, Gonzalo; Corzana, Francisco; Bernardes, Gonçalo J. L
Source: Nature Protocols. Unidade: IQSC
Subjects: QUÍMICA ORGÂNICA, SÍNTESE ORGÂNICA
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ABNT
BERNARDIM, Barbara et al. Efficient and irreversible antibody–cysteine bioconjugation using carbonylacrylic reagents. Nature Protocols, v. 14, n. Ja 2019, p. 86-99, 2019Tradução . . Disponível em: https://doi.org/10.1038/s41596-018-0083-9. Acesso em: 04 jul. 2024.
APA
Bernardim, B., Matos, M. J., Ferhati, X., Compañón, I., Guerreiro, A., Akkapeddi, P., et al. (2019). Efficient and irreversible antibody–cysteine bioconjugation using carbonylacrylic reagents. Nature Protocols, 14( Ja 2019), 86-99. doi:10.1038/s41596-018-0083-9
NLM
Bernardim B, Matos MJ, Ferhati X, Compañón I, Guerreiro A, Akkapeddi P, Burtoloso ACB, Jiménez-Osés G, Corzana F, Bernardes GJL. Efficient and irreversible antibody–cysteine bioconjugation using carbonylacrylic reagents [Internet]. Nature Protocols. 2019 ; 14( Ja 2019): 86-99.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1038/s41596-018-0083-9
Vancouver
Bernardim B, Matos MJ, Ferhati X, Compañón I, Guerreiro A, Akkapeddi P, Burtoloso ACB, Jiménez-Osés G, Corzana F, Bernardes GJL. Efficient and irreversible antibody–cysteine bioconjugation using carbonylacrylic reagents [Internet]. Nature Protocols. 2019 ; 14( Ja 2019): 86-99.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1038/s41596-018-0083-9
Artigo de periodico
Spatially resolved oxygen reaction, water, and temperature distribution: Experimental results as a function of flow field and implications for polymer electrolyte fuel cell operation (2019)
Lopes, Thiago ; Beruski, Otavio ; Manthanwar, Amit M. ; Korkischko, Ivan ; Pugliesi, Reynaldo ; Pereira, Marco Antonio Stanojev ; Andrade, Marcos Leandro Garcia; Pistikopoulos, Efstratios N. ; Perez, Joelma ; Fonseca, Fabio Coral ; Meneghini, Julio Romano ; Kucernak, Anthony R
Source: Applied Energy. Unidades: EP, IQSC
Assunto: CÉLULAS A COMBUSTÍVEL
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ABNT
LOPES, Thiago et al. Spatially resolved oxygen reaction, water, and temperature distribution: Experimental results as a function of flow field and implications for polymer electrolyte fuel cell operation. Applied Energy, v. 252, p. 113421, 2019Tradução . . Disponível em: https://doi.org/10.1016/j.apenergy.2019.113421. Acesso em: 04 jul. 2024.
APA
Lopes, T., Beruski, O., Manthanwar, A. M., Korkischko, I., Pugliesi, R., Pereira, M. A. S., et al. (2019). Spatially resolved oxygen reaction, water, and temperature distribution: Experimental results as a function of flow field and implications for polymer electrolyte fuel cell operation. Applied Energy, 252, 113421. doi:10.1016/j.apenergy.2019.113421
NLM
Lopes T, Beruski O, Manthanwar AM, Korkischko I, Pugliesi R, Pereira MAS, Andrade MLG, Pistikopoulos EN, Perez J, Fonseca FC, Meneghini JR, Kucernak AR. Spatially resolved oxygen reaction, water, and temperature distribution: Experimental results as a function of flow field and implications for polymer electrolyte fuel cell operation [Internet]. Applied Energy. 2019 ; 252 113421.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1016/j.apenergy.2019.113421
Vancouver
Lopes T, Beruski O, Manthanwar AM, Korkischko I, Pugliesi R, Pereira MAS, Andrade MLG, Pistikopoulos EN, Perez J, Fonseca FC, Meneghini JR, Kucernak AR. Spatially resolved oxygen reaction, water, and temperature distribution: Experimental results as a function of flow field and implications for polymer electrolyte fuel cell operation [Internet]. Applied Energy. 2019 ; 252 113421.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1016/j.apenergy.2019.113421
Artigo de periodico
ETFE-based anion-exchange membrane ionomer powders for alkaline membrane fuel cells: a first performance comparison of head-group chemistry (2018)
Biancolli, Ana Laura Gonçalves; Herranz, Manuel; Wang, Lianqin; Stehlíková, Gabriela; Bance-Soualhi, Rachida; Ponce-González, Julia; Ocon, Pilar; Ticianelli, Edson Antonio ; Whelligan, Daniel K; Varcoe, John R; Santiago, Elisabete Inacio
Source: Journal of Materials Chemistry A. Unidade: IQSC
Assunto: CÉLULAS A COMBUSTÍVEL
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ABNT
BIANCOLLI, Ana Laura Gonçalves et al. ETFE-based anion-exchange membrane ionomer powders for alkaline membrane fuel cells: a first performance comparison of head-group chemistry. Journal of Materials Chemistry A, v. 6, p. 24330-24341, 2018Tradução . . Disponível em: https://doi.org/10.1039/c8ta08309f. Acesso em: 04 jul. 2024.
APA
Biancolli, A. L. G., Herranz, M., Wang, L., Stehlíková, G., Bance-Soualhi, R., Ponce-González, J., et al. (2018). ETFE-based anion-exchange membrane ionomer powders for alkaline membrane fuel cells: a first performance comparison of head-group chemistry. Journal of Materials Chemistry A, 6, 24330-24341. doi:10.1039/c8ta08309f
NLM
Biancolli ALG, Herranz M, Wang L, Stehlíková G, Bance-Soualhi R, Ponce-González J, Ocon P, Ticianelli EA, Whelligan DK, Varcoe JR, Santiago EI. ETFE-based anion-exchange membrane ionomer powders for alkaline membrane fuel cells: a first performance comparison of head-group chemistry [Internet]. Journal of Materials Chemistry A. 2018 ;6 24330-24341.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1039/c8ta08309f
Vancouver
Biancolli ALG, Herranz M, Wang L, Stehlíková G, Bance-Soualhi R, Ponce-González J, Ocon P, Ticianelli EA, Whelligan DK, Varcoe JR, Santiago EI. ETFE-based anion-exchange membrane ionomer powders for alkaline membrane fuel cells: a first performance comparison of head-group chemistry [Internet]. Journal of Materials Chemistry A. 2018 ;6 24330-24341.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1039/c8ta08309f
Artigo de periodico
Self-assembled amphiphilic chitosan nanoparticles for quercetin delivery to breast cancer cells (2018)
Pedro, Rafael de Oliveira; Hoffmann, Stephan; Pereira, Susana; Goycoolea, Francisco M; Cavalheiro, Carla Cristina Schmitt ; Neumann, Miguel Guillermo
Source: European Journal of Pharmaceutics and Biopharmaceutics. Unidade: IQSC
Assunto: QUITOSANA
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ABNT
PEDRO, Rafael de Oliveira et al. Self-assembled amphiphilic chitosan nanoparticles for quercetin delivery to breast cancer cells. European Journal of Pharmaceutics and Biopharmaceutics, v. 131, p. 203-210, 2018Tradução . . Disponível em: https://doi.org/10.1016/j.ejpb.2018.08.009. Acesso em: 04 jul. 2024.
APA
Pedro, R. de O., Hoffmann, S., Pereira, S., Goycoolea, F. M., Cavalheiro, C. C. S., & Neumann, M. G. (2018). Self-assembled amphiphilic chitosan nanoparticles for quercetin delivery to breast cancer cells. European Journal of Pharmaceutics and Biopharmaceutics, 131, 203-210. doi:10.1016/j.ejpb.2018.08.009
NLM
Pedro R de O, Hoffmann S, Pereira S, Goycoolea FM, Cavalheiro CCS, Neumann MG. Self-assembled amphiphilic chitosan nanoparticles for quercetin delivery to breast cancer cells [Internet]. European Journal of Pharmaceutics and Biopharmaceutics. 2018 ;131203-210.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1016/j.ejpb.2018.08.009
Vancouver
Pedro R de O, Hoffmann S, Pereira S, Goycoolea FM, Cavalheiro CCS, Neumann MG. Self-assembled amphiphilic chitosan nanoparticles for quercetin delivery to breast cancer cells [Internet]. European Journal of Pharmaceutics and Biopharmaceutics. 2018 ;131203-210.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1016/j.ejpb.2018.08.009
Trabalho de evento-resumo
Combined cellulose and quaternized chitosan films for tissue engineering (2017)
Ono, B. A.; Johns, M. A.; Courtenay, J. C.; Santos, D. M.; Bukzem, A. L.; Campana Filho, Sergio Paulo ; Guimarães, Francisco Eduardo Gontijo; Ram, S.; Scott, J. L.
Source: Livro de Resumos. Conference titles: Semana Integrada do Instituto de Física de São Carlos - SIFSC. Unidades: IQSC, IFSC
Subjects: BIOPOLÍMEROS, CELULOSE, QUITOSANA
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ABNT
ONO, B. A. et al. Combined cellulose and quaternized chitosan films for tissue engineering. 2017, Anais.. São Carlos: Universidade de São Paulo - USP, Instituto de Física de São Carlos - IFSC, 2017. . Acesso em: 04 jul. 2024.
APA
Ono, B. A., Johns, M. A., Courtenay, J. C., Santos, D. M., Bukzem, A. L., Campana Filho, S. P., et al. (2017). Combined cellulose and quaternized chitosan films for tissue engineering. In Livro de Resumos. São Carlos: Universidade de São Paulo - USP, Instituto de Física de São Carlos - IFSC.
NLM
Ono BA, Johns MA, Courtenay JC, Santos DM, Bukzem AL, Campana Filho SP, Guimarães FEG, Ram S, Scott JL. Combined cellulose and quaternized chitosan films for tissue engineering. Livro de Resumos. 2017 ;[citado 2024 jul. 04 ]
Vancouver
Ono BA, Johns MA, Courtenay JC, Santos DM, Bukzem AL, Campana Filho SP, Guimarães FEG, Ram S, Scott JL. Combined cellulose and quaternized chitosan films for tissue engineering. Livro de Resumos. 2017 ;[citado 2024 jul. 04 ]
Artigo de periodico
Methyltransferase-directed covalent coupling of fluorophores to DNA (2017)
Lauer, Milena Helmer; Vranken, Charlotte; Deen, Jochem; Frederickx, Wout; Vanderline, F. A; Wand, Nathaniel; Leen, Volker; Gehlen, Marcelo Henrique ; Hofkens, Johan; Neely, Robert K
Source: Chemical Science. Unidade: IQSC
Assunto: DNA
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ABNT
LAUER, Milena Helmer et al. Methyltransferase-directed covalent coupling of fluorophores to DNA. Chemical Science, v. 8, n. 5, p. 3804-3811, 2017Tradução . . Disponível em: https://doi.org/10.1039/c6sc04229e. Acesso em: 04 jul. 2024.
APA
Lauer, M. H., Vranken, C., Deen, J., Frederickx, W., Vanderline, F. A., Wand, N., et al. (2017). Methyltransferase-directed covalent coupling of fluorophores to DNA. Chemical Science, 8( 5), 3804-3811. doi:10.1039/c6sc04229e
NLM
Lauer MH, Vranken C, Deen J, Frederickx W, Vanderline FA, Wand N, Leen V, Gehlen MH, Hofkens J, Neely RK. Methyltransferase-directed covalent coupling of fluorophores to DNA [Internet]. Chemical Science. 2017 ; 8( 5): 3804-3811.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1039/c6sc04229e
Vancouver
Lauer MH, Vranken C, Deen J, Frederickx W, Vanderline FA, Wand N, Leen V, Gehlen MH, Hofkens J, Neely RK. Methyltransferase-directed covalent coupling of fluorophores to DNA [Internet]. Chemical Science. 2017 ; 8( 5): 3804-3811.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1039/c6sc04229e
Artigo de periodico
Soft nanocomposites of gelatin and poly(3-hydroxybutyrate) nanoparticles for dual drug release (2017)
Bini, Rafael Admar; Silva, Mônica Fontoura da; Varanda, Laudemir Carlos ; Silva, Marcelo da; Dreiss, Cécile A
Source: Colloids and Surfaces B: Biointerfaces. Unidade: IQSC
Subjects: QUÍMICA COLOIDAL, NANOPARTÍCULAS
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ABNT
BINI, Rafael Admar et al. Soft nanocomposites of gelatin and poly(3-hydroxybutyrate) nanoparticles for dual drug release. Colloids and Surfaces B: Biointerfaces, v. 157, p. 191-198, 2017Tradução . . Disponível em: https://doi.org/10.1016/j.colsurfb.2017.05.051. Acesso em: 04 jul. 2024.
APA
Bini, R. A., Silva, M. F. da, Varanda, L. C., Silva, M. da, & Dreiss, C. A. (2017). Soft nanocomposites of gelatin and poly(3-hydroxybutyrate) nanoparticles for dual drug release. Colloids and Surfaces B: Biointerfaces, 157, 191-198. doi:10.1016/j.colsurfb.2017.05.051
NLM
Bini RA, Silva MF da, Varanda LC, Silva M da, Dreiss CA. Soft nanocomposites of gelatin and poly(3-hydroxybutyrate) nanoparticles for dual drug release [Internet]. Colloids and Surfaces B: Biointerfaces. 2017 ; 157 191-198.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1016/j.colsurfb.2017.05.051
Vancouver
Bini RA, Silva MF da, Varanda LC, Silva M da, Dreiss CA. Soft nanocomposites of gelatin and poly(3-hydroxybutyrate) nanoparticles for dual drug release [Internet]. Colloids and Surfaces B: Biointerfaces. 2017 ; 157 191-198.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1016/j.colsurfb.2017.05.051
Artigo de periodico
Mechanistic insights into the oxygen reduction reaction on metal–N–C electrocatalysts under fuel cell conditions (2016)
Lopes, Thiago; Kucernak, Anthony; Malko, Daniel; Ticianelli, Edson Antonio
Source: ChemElectroChem. Unidade: IQSC
Subjects: CARBONO, FILMES FINOS
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ABNT
LOPES, Thiago et al. Mechanistic insights into the oxygen reduction reaction on metal–N–C electrocatalysts under fuel cell conditions. ChemElectroChem, v. 3, p. 1580-1590, 2016Tradução . . Disponível em: https://doi.org/10.1002/celc.201600376. Acesso em: 04 jul. 2024.
APA
Lopes, T., Kucernak, A., Malko, D., & Ticianelli, E. A. (2016). Mechanistic insights into the oxygen reduction reaction on metal–N–C electrocatalysts under fuel cell conditions. ChemElectroChem, 3, 1580-1590. doi:10.1002/celc.201600376
NLM
Lopes T, Kucernak A, Malko D, Ticianelli EA. Mechanistic insights into the oxygen reduction reaction on metal–N–C electrocatalysts under fuel cell conditions [Internet]. ChemElectroChem. 2016 ; 3 1580-1590.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1002/celc.201600376
Vancouver
Lopes T, Kucernak A, Malko D, Ticianelli EA. Mechanistic insights into the oxygen reduction reaction on metal–N–C electrocatalysts under fuel cell conditions [Internet]. ChemElectroChem. 2016 ; 3 1580-1590.[citado 2024 jul. 04 ] Available from: https://doi.org/10.1002/celc.201600376

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