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SILVA, Andre Luis da et al. Improving TiO2 Anatase Nanostability Via Interface Segregation: The Role of the Ionic Radius. The Journal of Physical Chemistry C, 2023Tradução . . Disponível em: https://doi.org/10.1021/acs.jpcc.2c04271. Acesso em: 16 out. 2024.
APA
Silva, A. L. da, Bettini, J., Bernardes, A. A., Castro, R. H. R. de, & Gouvêa, D. (2023). Improving TiO2 Anatase Nanostability Via Interface Segregation: The Role of the Ionic Radius. The Journal of Physical Chemistry C. doi:10.1021/acs.jpcc.2c04271
NLM
Silva AL da, Bettini J, Bernardes AA, Castro RHR de, Gouvêa D. Improving TiO2 Anatase Nanostability Via Interface Segregation: The Role of the Ionic Radius [Internet]. The Journal of Physical Chemistry C. 2023 ;[citado 2024 out. 16 ] Available from: https://doi.org/10.1021/acs.jpcc.2c04271
Vancouver
Silva AL da, Bettini J, Bernardes AA, Castro RHR de, Gouvêa D. Improving TiO2 Anatase Nanostability Via Interface Segregation: The Role of the Ionic Radius [Internet]. The Journal of Physical Chemistry C. 2023 ;[citado 2024 out. 16 ] Available from: https://doi.org/10.1021/acs.jpcc.2c04271
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CALIMAN, Lorena Batista e SILVA, André Luiz da e GOUVÊA, Douglas. Self-segregation and solubility in nonstoichiometric MgAl2O4 nanoparticles. Journal of the American Ceramic Society, 2022Tradução . . Disponível em: https://doi.org/10.1111/jace.1844. Acesso em: 16 out. 2024.
APA
Caliman, L. B., Silva, A. L. da, & Gouvêa, D. (2022). Self-segregation and solubility in nonstoichiometric MgAl2O4 nanoparticles. Journal of the American Ceramic Society. doi:10.1111/jace.1844
NLM
Caliman LB, Silva AL da, Gouvêa D. Self-segregation and solubility in nonstoichiometric MgAl2O4 nanoparticles [Internet]. Journal of the American Ceramic Society. 2022 ;[citado 2024 out. 16 ] Available from: https://doi.org/10.1111/jace.1844
Vancouver
Caliman LB, Silva AL da, Gouvêa D. Self-segregation and solubility in nonstoichiometric MgAl2O4 nanoparticles [Internet]. Journal of the American Ceramic Society. 2022 ;[citado 2024 out. 16 ] Available from: https://doi.org/10.1111/jace.1844
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SANTOS, Luiz Fernando dos et al. In vitro assays and nanothermometry studies of infrared-to-visible upconversion of nanocrystalline Er3+,Yb3+ co-doped Y2O3 nanoparticles for theranostic applications. Physica B: Condensed Matter, v. 624, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.physb.2021.413447. Acesso em: 16 out. 2024.
APA
Santos, L. F. dos, Martins, J. C., Lima, K. de O., Gomes, L. F. T., Melo, M. T. de, Tedesco, A. C., et al. (2022). In vitro assays and nanothermometry studies of infrared-to-visible upconversion of nanocrystalline Er3+,Yb3+ co-doped Y2O3 nanoparticles for theranostic applications. Physica B: Condensed Matter, 624. doi:10.1016/j.physb.2021.413447
NLM
Santos LF dos, Martins JC, Lima K de O, Gomes LFT, Melo MT de, Tedesco AC, Carlos LD, Ferreira RAS, Gonçalves RR. In vitro assays and nanothermometry studies of infrared-to-visible upconversion of nanocrystalline Er3+,Yb3+ co-doped Y2O3 nanoparticles for theranostic applications [Internet]. Physica B: Condensed Matter. 2022 ; 624[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.physb.2021.413447
Vancouver
Santos LF dos, Martins JC, Lima K de O, Gomes LFT, Melo MT de, Tedesco AC, Carlos LD, Ferreira RAS, Gonçalves RR. In vitro assays and nanothermometry studies of infrared-to-visible upconversion of nanocrystalline Er3+,Yb3+ co-doped Y2O3 nanoparticles for theranostic applications [Internet]. Physica B: Condensed Matter. 2022 ; 624[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.physb.2021.413447
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OGUNJIMI, Abayomi Tolulope e CHAHUD, Fernando e LOPEZ, Renata Fonseca Vianna. Isotretinoin-Delonix polymeric nanoparticles: potentials for skin follicular targeting in acne treatment. International Journal of Pharmaceutics, v. 610, p. 1-12, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.ijpharm.2021.121217. Acesso em: 16 out. 2024.
APA
Ogunjimi, A. T., Chahud, F., & Lopez, R. F. V. (2021). Isotretinoin-Delonix polymeric nanoparticles: potentials for skin follicular targeting in acne treatment. International Journal of Pharmaceutics, 610, 1-12. doi:10.1016/j.ijpharm.2021.121217
NLM
Ogunjimi AT, Chahud F, Lopez RFV. Isotretinoin-Delonix polymeric nanoparticles: potentials for skin follicular targeting in acne treatment [Internet]. International Journal of Pharmaceutics. 2021 ; 610 1-12.[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.ijpharm.2021.121217
Vancouver
Ogunjimi AT, Chahud F, Lopez RFV. Isotretinoin-Delonix polymeric nanoparticles: potentials for skin follicular targeting in acne treatment [Internet]. International Journal of Pharmaceutics. 2021 ; 610 1-12.[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.ijpharm.2021.121217
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SOUZA, Lilian Rodrigues Rosa et al. The effects of solubility of silver nanoparticles, accumulation, and toxicity to the aquatic plant Lemna minor. Environmental Science and Pollution Research, v. 28, n. 13, p. 16720-16733, 2021Tradução . . Disponível em: https://doi.org/10.1007/s11356-020-11862-1. Acesso em: 16 out. 2024.
APA
Souza, L. R. R., Corrêa, T. Z., Bruni, A. T., & Veiga, M. A. M. S. da. (2021). The effects of solubility of silver nanoparticles, accumulation, and toxicity to the aquatic plant Lemna minor. Environmental Science and Pollution Research, 28( 13), 16720-16733. doi:10.1007/s11356-020-11862-1
NLM
Souza LRR, Corrêa TZ, Bruni AT, Veiga MAMS da. The effects of solubility of silver nanoparticles, accumulation, and toxicity to the aquatic plant Lemna minor [Internet]. Environmental Science and Pollution Research. 2021 ; 28( 13): 16720-16733.[citado 2024 out. 16 ] Available from: https://doi.org/10.1007/s11356-020-11862-1
Vancouver
Souza LRR, Corrêa TZ, Bruni AT, Veiga MAMS da. The effects of solubility of silver nanoparticles, accumulation, and toxicity to the aquatic plant Lemna minor [Internet]. Environmental Science and Pollution Research. 2021 ; 28( 13): 16720-16733.[citado 2024 out. 16 ] Available from: https://doi.org/10.1007/s11356-020-11862-1
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MOREIRA, Tiago Augusto et al. Flow boiling heat transfer coefcient of DI water and nanofuids inside microscale channels under conditions near the critical heat fux (CHF). Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 43, p. 1-16, 2021Tradução . . Disponível em: https://doi.org/10.1007/s40430-021-03035-z. Acesso em: 16 out. 2024.
APA
Moreira, T. A., Duarte, J. P., Nascimento, F. J. do, & Ribatski, G. (2021). Flow boiling heat transfer coefcient of DI water and nanofuids inside microscale channels under conditions near the critical heat fux (CHF). Journal of the Brazilian Society of Mechanical Sciences and Engineering, 43, 1-16. doi:10.1007/s40430-021-03035-z
NLM
Moreira TA, Duarte JP, Nascimento FJ do, Ribatski G. Flow boiling heat transfer coefcient of DI water and nanofuids inside microscale channels under conditions near the critical heat fux (CHF) [Internet]. Journal of the Brazilian Society of Mechanical Sciences and Engineering. 2021 ; 43 1-16.[citado 2024 out. 16 ] Available from: https://doi.org/10.1007/s40430-021-03035-z
Vancouver
Moreira TA, Duarte JP, Nascimento FJ do, Ribatski G. Flow boiling heat transfer coefcient of DI water and nanofuids inside microscale channels under conditions near the critical heat fux (CHF) [Internet]. Journal of the Brazilian Society of Mechanical Sciences and Engineering. 2021 ; 43 1-16.[citado 2024 out. 16 ] Available from: https://doi.org/10.1007/s40430-021-03035-z
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FÁVARO-TRINDADE, Carmen Silvia et al. Encapsulation of active pharmaceutical ingredients in lipid micro/nanoparticles for oral administration by spray-cooling. Pharmaceutics, v. 13, n. 8, p. 1-14, 2021Tradução . . Disponível em: https://doi.org/10.3390/pharmaceutics13081186. Acesso em: 16 out. 2024.
APA
Fávaro-Trindade, C. S., Matos Junior, F. E. de, Okuro, P. K., Dias-Ferreira, J., Cano, A., Severino, P., et al. (2021). Encapsulation of active pharmaceutical ingredients in lipid micro/nanoparticles for oral administration by spray-cooling. Pharmaceutics, 13( 8), 1-14. doi:10.3390/pharmaceutics13081186
NLM
Fávaro-Trindade CS, Matos Junior FE de, Okuro PK, Dias-Ferreira J, Cano A, Severino P, Zielińska A, Souto EB. Encapsulation of active pharmaceutical ingredients in lipid micro/nanoparticles for oral administration by spray-cooling [Internet]. Pharmaceutics. 2021 ; 13( 8): 1-14.[citado 2024 out. 16 ] Available from: https://doi.org/10.3390/pharmaceutics13081186
Vancouver
Fávaro-Trindade CS, Matos Junior FE de, Okuro PK, Dias-Ferreira J, Cano A, Severino P, Zielińska A, Souto EB. Encapsulation of active pharmaceutical ingredients in lipid micro/nanoparticles for oral administration by spray-cooling [Internet]. Pharmaceutics. 2021 ; 13( 8): 1-14.[citado 2024 out. 16 ] Available from: https://doi.org/10.3390/pharmaceutics13081186
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TAKAMIYA, Aline Satie et al. Biocompatible silver nanoparticles incorporated in acrylic resin for dental application inhibit Candida albicans biofilm. Materials Science and Engineering: C, v. 118, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.msec.2020.111341. Acesso em: 16 out. 2024.
APA
Takamiya, A. S., Monteiro, D. R., Gorup, L. F., Silva, E. A., Camargo, E. R. de, Gomes-Filho, J. E., et al. (2021). Biocompatible silver nanoparticles incorporated in acrylic resin for dental application inhibit Candida albicans biofilm. Materials Science and Engineering: C, 118. doi:10.1016/j.msec.2020.111341
NLM
Takamiya AS, Monteiro DR, Gorup LF, Silva EA, Camargo ER de, Gomes-Filho JE, Oliveira SHP de, Barbosa DB. Biocompatible silver nanoparticles incorporated in acrylic resin for dental application inhibit Candida albicans biofilm [Internet]. Materials Science and Engineering: C. 2021 ; 118[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.msec.2020.111341
Vancouver
Takamiya AS, Monteiro DR, Gorup LF, Silva EA, Camargo ER de, Gomes-Filho JE, Oliveira SHP de, Barbosa DB. Biocompatible silver nanoparticles incorporated in acrylic resin for dental application inhibit Candida albicans biofilm [Internet]. Materials Science and Engineering: C. 2021 ; 118[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.msec.2020.111341
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RASPANTINI, Giovanni Loureiro et al. PCL-TPGS polymeric nanoparticles for docetaxel delivery to prostate cancer: development, physicochemical and biological characterization. Colloids and Surfaces A: Physicochemical and Engineering Aspects, v. 627, p. 1-11, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.colsurfa.2021.127144. Acesso em: 16 out. 2024.
APA
Raspantini, G. L., Luiz, M. T., Abriata, J. P., Eloy, J. de O., Vaidergorn, M. M., Emery, F. da S., & Marchetti, J. M. (2021). PCL-TPGS polymeric nanoparticles for docetaxel delivery to prostate cancer: development, physicochemical and biological characterization. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 627, 1-11. doi:10.1016/j.colsurfa.2021.127144
NLM
Raspantini GL, Luiz MT, Abriata JP, Eloy J de O, Vaidergorn MM, Emery F da S, Marchetti JM. PCL-TPGS polymeric nanoparticles for docetaxel delivery to prostate cancer: development, physicochemical and biological characterization [Internet]. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2021 ; 627 1-11.[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.colsurfa.2021.127144
Vancouver
Raspantini GL, Luiz MT, Abriata JP, Eloy J de O, Vaidergorn MM, Emery F da S, Marchetti JM. PCL-TPGS polymeric nanoparticles for docetaxel delivery to prostate cancer: development, physicochemical and biological characterization [Internet]. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2021 ; 627 1-11.[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.colsurfa.2021.127144
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FARIÑAS ALVARIÑO, Pablo e SAIZ JABARDO, José Maria e CABEZAS GÓMEZ, Luben. Self‑difusion in nanofuids of nonelongated particles in the dilute limit. Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 43, p. 1-18, 2021Tradução . . Disponível em: https://doi.org/10.1007/s40430-021-03101-6. Acesso em: 16 out. 2024.
APA
Fariñas Alvariño, P., Saiz Jabardo, J. M., & Cabezas Gómez, L. (2021). Self‑difusion in nanofuids of nonelongated particles in the dilute limit. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 43, 1-18. doi:10.1007/s40430-021-03101-6
NLM
Fariñas Alvariño P, Saiz Jabardo JM, Cabezas Gómez L. Self‑difusion in nanofuids of nonelongated particles in the dilute limit [Internet]. Journal of the Brazilian Society of Mechanical Sciences and Engineering. 2021 ; 43 1-18.[citado 2024 out. 16 ] Available from: https://doi.org/10.1007/s40430-021-03101-6
Vancouver
Fariñas Alvariño P, Saiz Jabardo JM, Cabezas Gómez L. Self‑difusion in nanofuids of nonelongated particles in the dilute limit [Internet]. Journal of the Brazilian Society of Mechanical Sciences and Engineering. 2021 ; 43 1-18.[citado 2024 out. 16 ] Available from: https://doi.org/10.1007/s40430-021-03101-6
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ROCHA-FILHO, Pedro Alves da et al. The use of different commercial mineral water brands to produce oil-in-water nanoemulsions. Molecules, v. 25, n. 3, p. 1-7, 2020Tradução . . Disponível em: https://doi.org/10.3390/molecules25030603. Acesso em: 16 out. 2024.
APA
Rocha-Filho, P. A. da, Monteiro, A. D. A., Agostinho, L. C., & Oliveira, M. P. de A. (2020). The use of different commercial mineral water brands to produce oil-in-water nanoemulsions. Molecules, 25( 3), 1-7. doi:10.3390/molecules25030603
NLM
Rocha-Filho PA da, Monteiro ADA, Agostinho LC, Oliveira MP de A. The use of different commercial mineral water brands to produce oil-in-water nanoemulsions [Internet]. Molecules. 2020 ; 25( 3): 1-7.[citado 2024 out. 16 ] Available from: https://doi.org/10.3390/molecules25030603
Vancouver
Rocha-Filho PA da, Monteiro ADA, Agostinho LC, Oliveira MP de A. The use of different commercial mineral water brands to produce oil-in-water nanoemulsions [Internet]. Molecules. 2020 ; 25( 3): 1-7.[citado 2024 out. 16 ] Available from: https://doi.org/10.3390/molecules25030603
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MAZZILLI, Mariana Ribeiro Farah et al. Polyelectrolytic BSA nanoparticles containing silicon dihydroxide phthalocyanine as a promising candidate for drug delivery systems for anticancer photodynamic therapy. Journal of Biomaterials Science, Polymer Edition, v. 31, n. 11, p. 1457-1474, 2020Tradução . . Disponível em: https://doi.org/10.1080/09205063.2020.1760702. Acesso em: 16 out. 2024.
APA
Mazzilli, M. R. F., Ambrósio, J. A. R., Godoy, D. da S., Abreu, A. da S., Carvalho, J. A., Beltrame Júnior, M., & Simioni, A. R. (2020). Polyelectrolytic BSA nanoparticles containing silicon dihydroxide phthalocyanine as a promising candidate for drug delivery systems for anticancer photodynamic therapy. Journal of Biomaterials Science, Polymer Edition, 31( 11), 1457-1474. doi:10.1080/09205063.2020.1760702
NLM
Mazzilli MRF, Ambrósio JAR, Godoy D da S, Abreu A da S, Carvalho JA, Beltrame Júnior M, Simioni AR. Polyelectrolytic BSA nanoparticles containing silicon dihydroxide phthalocyanine as a promising candidate for drug delivery systems for anticancer photodynamic therapy [Internet]. Journal of Biomaterials Science, Polymer Edition. 2020 ; 31( 11): 1457-1474.[citado 2024 out. 16 ] Available from: https://doi.org/10.1080/09205063.2020.1760702
Vancouver
Mazzilli MRF, Ambrósio JAR, Godoy D da S, Abreu A da S, Carvalho JA, Beltrame Júnior M, Simioni AR. Polyelectrolytic BSA nanoparticles containing silicon dihydroxide phthalocyanine as a promising candidate for drug delivery systems for anticancer photodynamic therapy [Internet]. Journal of Biomaterials Science, Polymer Edition. 2020 ; 31( 11): 1457-1474.[citado 2024 out. 16 ] Available from: https://doi.org/10.1080/09205063.2020.1760702
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CAVALCANTE, Leonardo Lobo Ribeiro et al. Conjugate of chitosan nanoparticles with chloroaluminium phthalocyanine: synthesis, characterization and photoinactivation of Streptococcus mutans biofilm. Photodiagnosis and Photodynamic Therapy, v. 30, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.pdpdt.2020.101709. Acesso em: 16 out. 2024.
APA
Cavalcante, L. L. R., Tedesco, A. C., Takahashi, L. A. U., Curylofo-Zotti, F. de A., Souza-Gabriel, A. E., & Corona, S. A. M. (2020). Conjugate of chitosan nanoparticles with chloroaluminium phthalocyanine: synthesis, characterization and photoinactivation of Streptococcus mutans biofilm. Photodiagnosis and Photodynamic Therapy, 30. doi:10.1016/j.pdpdt.2020.101709
NLM
Cavalcante LLR, Tedesco AC, Takahashi LAU, Curylofo-Zotti F de A, Souza-Gabriel AE, Corona SAM. Conjugate of chitosan nanoparticles with chloroaluminium phthalocyanine: synthesis, characterization and photoinactivation of Streptococcus mutans biofilm [Internet]. Photodiagnosis and Photodynamic Therapy. 2020 ; 30[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.pdpdt.2020.101709
Vancouver
Cavalcante LLR, Tedesco AC, Takahashi LAU, Curylofo-Zotti F de A, Souza-Gabriel AE, Corona SAM. Conjugate of chitosan nanoparticles with chloroaluminium phthalocyanine: synthesis, characterization and photoinactivation of Streptococcus mutans biofilm [Internet]. Photodiagnosis and Photodynamic Therapy. 2020 ; 30[citado 2024 out. 16 ] Available from: https://doi.org/10.1016/j.pdpdt.2020.101709
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MATTIOLI, Isabela A e CERVINI, Priscila e CAVALHEIRO, Eder Tadeu Gomes. Screen-printed disposable electrodes using graphite-polyurethane composites modified with magnetite and chitosan-coated magnetite nanoparticles for voltammetric epinephrine sensing: a comparative study. Microchimica Acta, v. 187, n. 318, 2020Tradução . . Disponível em: https://doi.org/10.1007/s00604-020-04259-x. Acesso em: 16 out. 2024.
APA
Mattioli, I. A., Cervini, P., & Cavalheiro, E. T. G. (2020). Screen-printed disposable electrodes using graphite-polyurethane composites modified with magnetite and chitosan-coated magnetite nanoparticles for voltammetric epinephrine sensing: a comparative study. Microchimica Acta, 187( 318). doi:10.1007/s00604-020-04259-x
NLM
Mattioli IA, Cervini P, Cavalheiro ETG. Screen-printed disposable electrodes using graphite-polyurethane composites modified with magnetite and chitosan-coated magnetite nanoparticles for voltammetric epinephrine sensing: a comparative study [Internet]. Microchimica Acta. 2020 ;187( 318):[citado 2024 out. 16 ] Available from: https://doi.org/10.1007/s00604-020-04259-x
Vancouver
Mattioli IA, Cervini P, Cavalheiro ETG. Screen-printed disposable electrodes using graphite-polyurethane composites modified with magnetite and chitosan-coated magnetite nanoparticles for voltammetric epinephrine sensing: a comparative study [Internet]. Microchimica Acta. 2020 ;187( 318):[citado 2024 out. 16 ] Available from: https://doi.org/10.1007/s00604-020-04259-x
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REGO, Gabriel N. A. et al. Therapeutic efficiency of multiple applications of magnetic hyperthermia technique in glioblastoma using aminosilane coated iron oxide nanoparticles: in vitro and in vivo study. International Journal of Molecular Sciences, v. 21, n. 3, p. 1-31, 2020Tradução . . Disponível em: https://doi.org/10.3390/ijms21030958. Acesso em: 16 out. 2024.
APA
Rego, G. N. A., Silva, M. P. N. da, Mamani, J. B., Oliveira, F. A., Marti, L. C., Filgueiras, I. S., et al. (2020). Therapeutic efficiency of multiple applications of magnetic hyperthermia technique in glioblastoma using aminosilane coated iron oxide nanoparticles: in vitro and in vivo study. International Journal of Molecular Sciences, 21( 3), 1-31. doi:10.3390/ijms21030958
NLM
Rego GNA, Silva MPN da, Mamani JB, Oliveira FA, Marti LC, Filgueiras IS, Ferreira JM, Gregorio CCR, Faria D de P, Espinha P, Fantacini DMC, Souza LEB de, Covas DT, Buchpiguel CA, Gamarra LF. Therapeutic efficiency of multiple applications of magnetic hyperthermia technique in glioblastoma using aminosilane coated iron oxide nanoparticles: in vitro and in vivo study [Internet]. International Journal of Molecular Sciences. 2020 ; 21( 3): 1-31.[citado 2024 out. 16 ] Available from: https://doi.org/10.3390/ijms21030958
Vancouver
Rego GNA, Silva MPN da, Mamani JB, Oliveira FA, Marti LC, Filgueiras IS, Ferreira JM, Gregorio CCR, Faria D de P, Espinha P, Fantacini DMC, Souza LEB de, Covas DT, Buchpiguel CA, Gamarra LF. Therapeutic efficiency of multiple applications of magnetic hyperthermia technique in glioblastoma using aminosilane coated iron oxide nanoparticles: in vitro and in vivo study [Internet]. International Journal of Molecular Sciences. 2020 ; 21( 3): 1-31.[citado 2024 out. 16 ] Available from: https://doi.org/10.3390/ijms21030958
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SOUTO, Eliana B. et al. SLN and NLC for topical, dermal, and transdermal drug delivery. Expert Opinion on Drug Delivery, v. 17, n. 3, p. 357-377, 2020Tradução . . Disponível em: https://doi.org/10.1080/17425247.2020.1727883. Acesso em: 16 out. 2024.
APA
Souto, E. B., Baldim, I., Oliveira, W. P. de, Rao, R., Yadav, N., Gama, F. M., & Mahant, S. (2020). SLN and NLC for topical, dermal, and transdermal drug delivery. Expert Opinion on Drug Delivery, 17( 3), 357-377. doi:10.1080/17425247.2020.1727883
NLM
Souto EB, Baldim I, Oliveira WP de, Rao R, Yadav N, Gama FM, Mahant S. SLN and NLC for topical, dermal, and transdermal drug delivery [Internet]. Expert Opinion on Drug Delivery. 2020 ; 17( 3): 357-377.[citado 2024 out. 16 ] Available from: https://doi.org/10.1080/17425247.2020.1727883
Vancouver
Souto EB, Baldim I, Oliveira WP de, Rao R, Yadav N, Gama FM, Mahant S. SLN and NLC for topical, dermal, and transdermal drug delivery [Internet]. Expert Opinion on Drug Delivery. 2020 ; 17( 3): 357-377.[citado 2024 out. 16 ] Available from: https://doi.org/10.1080/17425247.2020.1727883
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OIDE, Mariane Yuka Tsubaki et al. White Electroluminescence from Aluminum Zinc Oxide Embedded in Poly(9-vinylcarbazole). Chemistry Select, v. 4, p. 12424-12427, 2019Tradução . . Disponível em: https://doi.org/10.1002/slct.201902559. Acesso em: 16 out. 2024.
APA
Oide, M. Y. T., Onmori, R. K., Oppenheim, I. F. C., & Wang, S. H. (2019). White Electroluminescence from Aluminum Zinc Oxide Embedded in Poly(9-vinylcarbazole). Chemistry Select, 4, 12424-12427. doi:10.1002/slct.201902559
NLM
Oide MYT, Onmori RK, Oppenheim IFC, Wang SH. White Electroluminescence from Aluminum Zinc Oxide Embedded in Poly(9-vinylcarbazole) [Internet]. Chemistry Select. 2019 ; 4 12424-12427.[citado 2024 out. 16 ] Available from: https://doi.org/10.1002/slct.201902559
Vancouver
Oide MYT, Onmori RK, Oppenheim IFC, Wang SH. White Electroluminescence from Aluminum Zinc Oxide Embedded in Poly(9-vinylcarbazole) [Internet]. Chemistry Select. 2019 ; 4 12424-12427.[citado 2024 out. 16 ] Available from: https://doi.org/10.1002/slct.201902559
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MELO, Antonio Francisco Arcanjo de Araújo et al. Electrochemical behaviour of cytochrome c immobilized in magnetically induced mesoporous framework. ChemElectroChem, v. 6, n. 23, p. 5802-5809, 2019Tradução . . Disponível em: https://doi.org/10.1002/celc.201901047. Acesso em: 16 out. 2024.
APA
Melo, A. F. A. de A., Sedenho, G. C., Osica, I., Ariga, K., & Crespilho, F. N. (2019). Electrochemical behaviour of cytochrome c immobilized in magnetically induced mesoporous framework. ChemElectroChem, 6( 23), 5802-5809. doi:10.1002/celc.201901047
NLM
Melo AFA de A, Sedenho GC, Osica I, Ariga K, Crespilho FN. Electrochemical behaviour of cytochrome c immobilized in magnetically induced mesoporous framework [Internet]. ChemElectroChem. 2019 ; 6( 23): 5802-5809.[citado 2024 out. 16 ] Available from: https://doi.org/10.1002/celc.201901047
Vancouver
Melo AFA de A, Sedenho GC, Osica I, Ariga K, Crespilho FN. Electrochemical behaviour of cytochrome c immobilized in magnetically induced mesoporous framework [Internet]. ChemElectroChem. 2019 ; 6( 23): 5802-5809.[citado 2024 out. 16 ] Available from: https://doi.org/10.1002/celc.201901047
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
VALANDRO, Silvano Rodrigo et al. Photochemical Synthesis of Ag and Au Nanoparticles Using a Thioxanthone Substituted Chitosan as Simultaneous Photoinitiator and Stabilizer. Journal of the Brazilian Chemical Society, 2019Tradução . . Disponível em: http://jbcs.sbq.org.br/imagebank/pdf/2019-0065AR_BrazWoman.pdf. Acesso em: 16 out. 2024.
APA
Valandro, S. R., Poli, A. L., Neumann, M. G., & Cavalheiro, C. C. S. (2019). Photochemical Synthesis of Ag and Au Nanoparticles Using a Thioxanthone Substituted Chitosan as Simultaneous Photoinitiator and Stabilizer. Journal of the Brazilian Chemical Society. doi:10.21577/0103-5053.20190182
NLM
Valandro SR, Poli AL, Neumann MG, Cavalheiro CCS. Photochemical Synthesis of Ag and Au Nanoparticles Using a Thioxanthone Substituted Chitosan as Simultaneous Photoinitiator and Stabilizer [Internet]. Journal of the Brazilian Chemical Society. 2019 ;[citado 2024 out. 16 ] Available from: http://jbcs.sbq.org.br/imagebank/pdf/2019-0065AR_BrazWoman.pdf
Vancouver
Valandro SR, Poli AL, Neumann MG, Cavalheiro CCS. Photochemical Synthesis of Ag and Au Nanoparticles Using a Thioxanthone Substituted Chitosan as Simultaneous Photoinitiator and Stabilizer [Internet]. Journal of the Brazilian Chemical Society. 2019 ;[citado 2024 out. 16 ] Available from: http://jbcs.sbq.org.br/imagebank/pdf/2019-0065AR_BrazWoman.pdf
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
CHIBAS, Leniher Castan et al. Polyalthic acid in polymeric nanoparticles causes selective growth inhibition and genotoxicity in MCF-7 cells. Natural Product Communications, v. 14, n. 4, p. [7] , 2019Tradução . . Disponível em: https://doi.org/10.1177/1934578x19842702. Acesso em: 16 out. 2024.
APA
Chibas, L. C., Cintra, P. P., Moreira, M. R., Goulart, M. O., Ambrósio, S. R., Veneziani, R. C. S., et al. (2019). Polyalthic acid in polymeric nanoparticles causes selective growth inhibition and genotoxicity in MCF-7 cells. Natural Product Communications, 14( 4), [7] . doi:10.1177/1934578x19842702
NLM
Chibas LC, Cintra PP, Moreira MR, Goulart MO, Ambrósio SR, Veneziani RCS, Bastos JK, Santos RA dos. Polyalthic acid in polymeric nanoparticles causes selective growth inhibition and genotoxicity in MCF-7 cells [Internet]. Natural Product Communications. 2019 ; 14( 4): [7] .[citado 2024 out. 16 ] Available from: https://doi.org/10.1177/1934578x19842702
Vancouver
Chibas LC, Cintra PP, Moreira MR, Goulart MO, Ambrósio SR, Veneziani RCS, Bastos JK, Santos RA dos. Polyalthic acid in polymeric nanoparticles causes selective growth inhibition and genotoxicity in MCF-7 cells [Internet]. Natural Product Communications. 2019 ; 14( 4): [7] .[citado 2024 out. 16 ] Available from: https://doi.org/10.1177/1934578x19842702