Filtros : "NANOPARTÍCULAS" "POLÍMEROS (MATERIAIS)" Removidos: "Semana da Ciência" "FARMACOCINÉTICA" Limpar

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  • Source: Antibiotics. Unidade: IQSC

    Subjects: FOSFATOS, PRATA, NANOPARTÍCULAS, BIOMATERIAIS, POLÍMEROS (MATERIAIS)

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      MORAIS, Leonardo Antonio de et al. Synthesis, characterization, and evaluation of the antimicrobial effects and cytotoxicity of a novel nanocomposite based on polyamide 6 and trimetaphosphate nanoparticles decorated with silver nanoparticles. Antibiotics, v. 13, n. 4, p. 340, 2024Tradução . . Disponível em: https://repositorio.usp.br/directbitstream/d9af904f-d69c-46fb-98d1-62a8408b766a/P21077.pdf. Acesso em: 19 nov. 2024.
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      Morais, L. A. de, Souza Neto, F. N. de, Hosida, T. Y., Santos, D. M. dos, Almeida, B. C. de, Frollini, E., et al. (2024). Synthesis, characterization, and evaluation of the antimicrobial effects and cytotoxicity of a novel nanocomposite based on polyamide 6 and trimetaphosphate nanoparticles decorated with silver nanoparticles. Antibiotics, 13( 4), 340. doi:10.3390/antibiotics13040340
    • NLM

      Morais LA de, Souza Neto FN de, Hosida TY, Santos DM dos, Almeida BC de, Frollini E, Campana Filho SP, Barbosa D de B, Camargo ER de, Delbem ACB. Synthesis, characterization, and evaluation of the antimicrobial effects and cytotoxicity of a novel nanocomposite based on polyamide 6 and trimetaphosphate nanoparticles decorated with silver nanoparticles [Internet]. Antibiotics. 2024 ; 13( 4): 340.[citado 2024 nov. 19 ] Available from: https://repositorio.usp.br/directbitstream/d9af904f-d69c-46fb-98d1-62a8408b766a/P21077.pdf
    • Vancouver

      Morais LA de, Souza Neto FN de, Hosida TY, Santos DM dos, Almeida BC de, Frollini E, Campana Filho SP, Barbosa D de B, Camargo ER de, Delbem ACB. Synthesis, characterization, and evaluation of the antimicrobial effects and cytotoxicity of a novel nanocomposite based on polyamide 6 and trimetaphosphate nanoparticles decorated with silver nanoparticles [Internet]. Antibiotics. 2024 ; 13( 4): 340.[citado 2024 nov. 19 ] Available from: https://repositorio.usp.br/directbitstream/d9af904f-d69c-46fb-98d1-62a8408b766a/P21077.pdf
  • Source: Program. Conference titles: Encontro de Outono da Sociedade Brasileira de Física - EOSBF. Unidades: IFSC, EESC

    Subjects: NANOPARTÍCULAS, SEMICONDUTORES, POLÍMEROS (MATERIAIS)

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      MENEZES, Diogo de Carvalho et al. Hybrid composites obtained by the addition of α-Al2O3 powder or Eu2O3 to the in-situ polymeratization of p-ansinidine. 2023, Anais.. São Paulo: Sociedade Brasileira de Física - SBF, 2023. Disponível em: https://sec.sbfisica.org.br/eventos/eosbf/2023/sys/resumos/R0722-1.pdf. Acesso em: 19 nov. 2024.
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      Menezes, D. de C., Santiago, P. H. de O., Mascarenhas, Y. P., & Sanches, E. A. (2023). Hybrid composites obtained by the addition of α-Al2O3 powder or Eu2O3 to the in-situ polymeratization of p-ansinidine. In Program. São Paulo: Sociedade Brasileira de Física - SBF. Recuperado de https://sec.sbfisica.org.br/eventos/eosbf/2023/sys/resumos/R0722-1.pdf
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      Menezes D de C, Santiago PH de O, Mascarenhas YP, Sanches EA. Hybrid composites obtained by the addition of α-Al2O3 powder or Eu2O3 to the in-situ polymeratization of p-ansinidine [Internet]. Program. 2023 ;[citado 2024 nov. 19 ] Available from: https://sec.sbfisica.org.br/eventos/eosbf/2023/sys/resumos/R0722-1.pdf
    • Vancouver

      Menezes D de C, Santiago PH de O, Mascarenhas YP, Sanches EA. Hybrid composites obtained by the addition of α-Al2O3 powder or Eu2O3 to the in-situ polymeratization of p-ansinidine [Internet]. Program. 2023 ;[citado 2024 nov. 19 ] Available from: https://sec.sbfisica.org.br/eventos/eosbf/2023/sys/resumos/R0722-1.pdf
  • Source: Program. Conference titles: Brazil MRS Meeting. Unidade: IFSC

    Subjects: POLÍMEROS (MATERIAIS), OURO, NANOPARTÍCULAS

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      MENEZES, Diogo de Carvalho e SANCHES, Edgar Aparecido e MASCARENHAS, Yvonne Primerano. Synthesis and characterization of composite obtained by combining conjugated polymer poly(p-anisidine) with Au nanoparticles. 2023, Anais.. Rio de Janeiro: Sociedade Brasileira de Pesquisa em Materiais - SBPMat, 2023. Disponível em: https://repositorio.usp.br/directbitstream/32a01851-1177-449d-b2a1-62690307b3a2/PROD034947_3157712.pdf. Acesso em: 19 nov. 2024.
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      Menezes, D. de C., Sanches, E. A., & Mascarenhas, Y. P. (2023). Synthesis and characterization of composite obtained by combining conjugated polymer poly(p-anisidine) with Au nanoparticles. In Program. Rio de Janeiro: Sociedade Brasileira de Pesquisa em Materiais - SBPMat. Recuperado de https://repositorio.usp.br/directbitstream/32a01851-1177-449d-b2a1-62690307b3a2/PROD034947_3157712.pdf
    • NLM

      Menezes D de C, Sanches EA, Mascarenhas YP. Synthesis and characterization of composite obtained by combining conjugated polymer poly(p-anisidine) with Au nanoparticles [Internet]. Program. 2023 ;[citado 2024 nov. 19 ] Available from: https://repositorio.usp.br/directbitstream/32a01851-1177-449d-b2a1-62690307b3a2/PROD034947_3157712.pdf
    • Vancouver

      Menezes D de C, Sanches EA, Mascarenhas YP. Synthesis and characterization of composite obtained by combining conjugated polymer poly(p-anisidine) with Au nanoparticles [Internet]. Program. 2023 ;[citado 2024 nov. 19 ] Available from: https://repositorio.usp.br/directbitstream/32a01851-1177-449d-b2a1-62690307b3a2/PROD034947_3157712.pdf
  • Source: Journal of Clinical and Experimental Dentistry. Unidades: FO, ICB

    Subjects: MICROBIOLOGIA, NANOPARTÍCULAS, PRÓTESE DENTÁRIA, RESINAS ACRÍLICAS, POLÍMEROS (MATERIAIS), CANDIDA ALBICANS, STREPTOCOCCUS MUTANS

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      MUKAI, Márcio Katsuyoshi et al. Antimicrobial effect of silver nanoparticles on polypropylene and acrylic resin denture bases. Journal of Clinical and Experimental Dentistry, v. 1, p. e38-42, 2023Tradução . . Disponível em: https://doi.org/10.4317/jced.59766. Acesso em: 19 nov. 2024.
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      Mukai, M. K., Mayumi-Iegami, C., Cai, S., Stegun, R. C., Galhardo, A. P. M., & Costa, B. (2023). Antimicrobial effect of silver nanoparticles on polypropylene and acrylic resin denture bases. Journal of Clinical and Experimental Dentistry, 1, e38-42. doi:10.4317/jced.59766
    • NLM

      Mukai MK, Mayumi-Iegami C, Cai S, Stegun RC, Galhardo APM, Costa B. Antimicrobial effect of silver nanoparticles on polypropylene and acrylic resin denture bases [Internet]. Journal of Clinical and Experimental Dentistry. 2023 ; 1 e38-42.[citado 2024 nov. 19 ] Available from: https://doi.org/10.4317/jced.59766
    • Vancouver

      Mukai MK, Mayumi-Iegami C, Cai S, Stegun RC, Galhardo APM, Costa B. Antimicrobial effect of silver nanoparticles on polypropylene and acrylic resin denture bases [Internet]. Journal of Clinical and Experimental Dentistry. 2023 ; 1 e38-42.[citado 2024 nov. 19 ] Available from: https://doi.org/10.4317/jced.59766
  • Source: Nature Communications. Unidade: IFSC

    Subjects: POLÍMEROS (MATERIAIS), FILMES FINOS, NANOPARTÍCULAS

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      DEMIRÖRS, Ahmet F. et al. Three-dimensional printing of photonic colloidal glasses into objects with isotropic structural color. Nature Communications, v. 13, p. 4397-1-4397-9, 2022Tradução . . Disponível em: https://doi.org/10.1038/s41467-022-32060-2. Acesso em: 19 nov. 2024.
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      Demirörs, A. F., Poloni, E., Chiesa, M., Bargardi, F. L., Binelli, M. R., Woigk, W., et al. (2022). Three-dimensional printing of photonic colloidal glasses into objects with isotropic structural color. Nature Communications, 13, 4397-1-4397-9. doi:10.1038/s41467-022-32060-2
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      Demirörs AF, Poloni E, Chiesa M, Bargardi FL, Binelli MR, Woigk W, Castro LDC de, Kleger N, Coulter FB, Sicher A, Galinski H, Scheffold F, Studart AR. Three-dimensional printing of photonic colloidal glasses into objects with isotropic structural color [Internet]. Nature Communications. 2022 ; 13 4397-1-4397-9.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1038/s41467-022-32060-2
    • Vancouver

      Demirörs AF, Poloni E, Chiesa M, Bargardi FL, Binelli MR, Woigk W, Castro LDC de, Kleger N, Coulter FB, Sicher A, Galinski H, Scheffold F, Studart AR. Three-dimensional printing of photonic colloidal glasses into objects with isotropic structural color [Internet]. Nature Communications. 2022 ; 13 4397-1-4397-9.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1038/s41467-022-32060-2
  • Unidade: BIOTECNOLOGIA

    Subjects: POLÍMEROS (MATERIAIS), NANOPARTÍCULAS, HIV, ANTIRRETROVIRAIS, MEDICAMENTO

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      TUNUSSI, Ariane Simões. Desenvolvimento do processo de nanoencapsulação para liberação controlada de antirretrovirais empregando nanoparticulas poliméricas. 2022. Dissertação (Mestrado) – Universidade de São Paulo, São Paulo, 2022. Disponível em: https://www.teses.usp.br/teses/disponiveis/87/87131/tde-20102023-134343/. Acesso em: 19 nov. 2024.
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      Tunussi, A. S. (2022). Desenvolvimento do processo de nanoencapsulação para liberação controlada de antirretrovirais empregando nanoparticulas poliméricas (Dissertação (Mestrado). Universidade de São Paulo, São Paulo. Recuperado de https://www.teses.usp.br/teses/disponiveis/87/87131/tde-20102023-134343/
    • NLM

      Tunussi AS. Desenvolvimento do processo de nanoencapsulação para liberação controlada de antirretrovirais empregando nanoparticulas poliméricas [Internet]. 2022 ;[citado 2024 nov. 19 ] Available from: https://www.teses.usp.br/teses/disponiveis/87/87131/tde-20102023-134343/
    • Vancouver

      Tunussi AS. Desenvolvimento do processo de nanoencapsulação para liberação controlada de antirretrovirais empregando nanoparticulas poliméricas [Internet]. 2022 ;[citado 2024 nov. 19 ] Available from: https://www.teses.usp.br/teses/disponiveis/87/87131/tde-20102023-134343/
  • Source: ACS Applied Nano Materials. Unidade: IQSC

    Subjects: NANOPARTÍCULAS, POLÍMEROS (MATERIAIS), NEOPLASIAS, BIOMEDICINA

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      PERECIN, Caio José et al. Magnetite Nanoparticles Coated with Biodegradable Zwitterionic Polymers as Multifunctional Nanocomposites for Drug Delivery and Cancer Treatment. ACS Applied Nano Materials, v. 5, n. 11, p. 16706–16719, 2022Tradução . . Disponível em: https://doi.org/10.1021/acsanm.2c03712. Acesso em: 19 nov. 2024.
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      Perecin, C. J., Sponchioni, M., Auriemma, R., Cerize, N. N. P., Moscatelli, D., & Varanda, L. C. (2022). Magnetite Nanoparticles Coated with Biodegradable Zwitterionic Polymers as Multifunctional Nanocomposites for Drug Delivery and Cancer Treatment. ACS Applied Nano Materials, 5( 11), 16706–16719. doi:10.1021/acsanm.2c03712
    • NLM

      Perecin CJ, Sponchioni M, Auriemma R, Cerize NNP, Moscatelli D, Varanda LC. Magnetite Nanoparticles Coated with Biodegradable Zwitterionic Polymers as Multifunctional Nanocomposites for Drug Delivery and Cancer Treatment [Internet]. ACS Applied Nano Materials. 2022 ; 5( 11): 16706–16719.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1021/acsanm.2c03712
    • Vancouver

      Perecin CJ, Sponchioni M, Auriemma R, Cerize NNP, Moscatelli D, Varanda LC. Magnetite Nanoparticles Coated with Biodegradable Zwitterionic Polymers as Multifunctional Nanocomposites for Drug Delivery and Cancer Treatment [Internet]. ACS Applied Nano Materials. 2022 ; 5( 11): 16706–16719.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1021/acsanm.2c03712
  • Source: Colloids and Surfaces A. Unidade: IFSC

    Subjects: QUITOSANA, POLÍMEROS (MATERIAIS), NANOPARTÍCULAS

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      SANTOS, Aline Martins dos et al. Understanding the role of electrostatic interactions on the association of 5-fluorouracil to chitosan-TPP nanoparticles. Colloids and Surfaces A, v. 640, p. 128417-1- 128417-8, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.colsurfa.2022.128417. Acesso em: 19 nov. 2024.
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      Santos, A. M. dos, Carvalho, S. G., Ferreira, L. M. B., Chorilli, M., & Gremião, M. P. D. (2022). Understanding the role of electrostatic interactions on the association of 5-fluorouracil to chitosan-TPP nanoparticles. Colloids and Surfaces A, 640, 128417-1- 128417-8. doi:10.1016/j.colsurfa.2022.128417
    • NLM

      Santos AM dos, Carvalho SG, Ferreira LMB, Chorilli M, Gremião MPD. Understanding the role of electrostatic interactions on the association of 5-fluorouracil to chitosan-TPP nanoparticles [Internet]. Colloids and Surfaces A. 2022 ; 640 128417-1- 128417-8.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.colsurfa.2022.128417
    • Vancouver

      Santos AM dos, Carvalho SG, Ferreira LMB, Chorilli M, Gremião MPD. Understanding the role of electrostatic interactions on the association of 5-fluorouracil to chitosan-TPP nanoparticles [Internet]. Colloids and Surfaces A. 2022 ; 640 128417-1- 128417-8.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.colsurfa.2022.128417
  • Source: Anais. Conference titles: Reunião Anual da Sociedade Brasileira de Química - RASBQ. Unidades: IQSC, IFSC

    Subjects: NANOPARTÍCULAS, VITAMINA D, SENSORES BIOMÉDICOS, POLÍMEROS (MATERIAIS), NANOTECNOLOGIA

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      MARTINS, Thiago Serafim et al. Printed immunosensor chip for label-free monitoring of 25-hydroxyvitamin D3 metabolite. 2022, Anais.. São Paulo: Sociedade Brasileira de Química - SBQ, 2022. Disponível em: https://www.eventweb.com.br/45rasbq/specific-files/manuscripts/45rasbq/830_1647523324.pdf. Acesso em: 19 nov. 2024.
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      Martins, T. S., Bott Neto, J. L., Machado, S. A. S., & Oliveira Junior, O. N. de. (2022). Printed immunosensor chip for label-free monitoring of 25-hydroxyvitamin D3 metabolite. In Anais. São Paulo: Sociedade Brasileira de Química - SBQ. Recuperado de https://www.eventweb.com.br/45rasbq/specific-files/manuscripts/45rasbq/830_1647523324.pdf
    • NLM

      Martins TS, Bott Neto JL, Machado SAS, Oliveira Junior ON de. Printed immunosensor chip for label-free monitoring of 25-hydroxyvitamin D3 metabolite [Internet]. Anais. 2022 ;[citado 2024 nov. 19 ] Available from: https://www.eventweb.com.br/45rasbq/specific-files/manuscripts/45rasbq/830_1647523324.pdf
    • Vancouver

      Martins TS, Bott Neto JL, Machado SAS, Oliveira Junior ON de. Printed immunosensor chip for label-free monitoring of 25-hydroxyvitamin D3 metabolite [Internet]. Anais. 2022 ;[citado 2024 nov. 19 ] Available from: https://www.eventweb.com.br/45rasbq/specific-files/manuscripts/45rasbq/830_1647523324.pdf
  • Source: Journal of Molecular Liquids. Unidade: IFSC

    Subjects: FILMES FINOS, NANOPARTÍCULAS, PRATA, NANOTECNOLOGIA, POLÍMEROS (MATERIAIS)

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      MARTIN, Cibely S. et al. Synergetic effect of silver nanoparticles and thiram on lipid bilayers. Journal of Molecular Liquids, v. 348, p. 118406-1-118406-9, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.molliq.2021.118406. Acesso em: 19 nov. 2024.
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      Martin, C. S., Oliveira, M. J. S., Maximino, M. D., Pazin, W. M., & Constantino, C. J. L. (2022). Synergetic effect of silver nanoparticles and thiram on lipid bilayers. Journal of Molecular Liquids, 348, 118406-1-118406-9. doi:10.1016/j.molliq.2021.118406
    • NLM

      Martin CS, Oliveira MJS, Maximino MD, Pazin WM, Constantino CJL. Synergetic effect of silver nanoparticles and thiram on lipid bilayers [Internet]. Journal of Molecular Liquids. 2022 ; 348 118406-1-118406-9.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.molliq.2021.118406
    • Vancouver

      Martin CS, Oliveira MJS, Maximino MD, Pazin WM, Constantino CJL. Synergetic effect of silver nanoparticles and thiram on lipid bilayers [Internet]. Journal of Molecular Liquids. 2022 ; 348 118406-1-118406-9.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.molliq.2021.118406
  • Source: European Journal of Pharmaceutics and Biopharmaceutics. Unidade: IFSC

    Subjects: FILMES FINOS, POLÍMEROS (MATERIAIS), NANOPARTÍCULAS, OURO

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      LINS, Paula Maria Pincela et al. Comparing extracellular vesicles and cell membranes as biocompatible coatings for gold nanorods: implications for targeted theranostics. European Journal of Pharmaceutics and Biopharmaceutics, v. 176, p. 168-179, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.ejpb.2022.05.018. Acesso em: 19 nov. 2024.
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      Lins, P. M. P., Ribovski, L., Antonio, L. C., Altei, W. F., Araújo, H. S. S., Bernardi, J. C., & Zucolotto, V. (2022). Comparing extracellular vesicles and cell membranes as biocompatible coatings for gold nanorods: implications for targeted theranostics. European Journal of Pharmaceutics and Biopharmaceutics, 176, 168-179. doi:10.1016/j.ejpb.2022.05.018
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      Lins PMP, Ribovski L, Antonio LC, Altei WF, Araújo HSS, Bernardi JC, Zucolotto V. Comparing extracellular vesicles and cell membranes as biocompatible coatings for gold nanorods: implications for targeted theranostics [Internet]. European Journal of Pharmaceutics and Biopharmaceutics. 2022 ; 176 168-179.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.ejpb.2022.05.018
    • Vancouver

      Lins PMP, Ribovski L, Antonio LC, Altei WF, Araújo HSS, Bernardi JC, Zucolotto V. Comparing extracellular vesicles and cell membranes as biocompatible coatings for gold nanorods: implications for targeted theranostics [Internet]. European Journal of Pharmaceutics and Biopharmaceutics. 2022 ; 176 168-179.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.ejpb.2022.05.018
  • Unidade: IFSC

    Subjects: NANOPARTÍCULAS, POLÍMEROS (MATERIAIS)

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      THOMAS, Sabu et al. Silicon-based hybrid nanoparticles: fundamentals, properties, and applications. . Amsterdam: Elsevier. Disponível em: https://doi.org/10.1016/C2020-0-00520-7. Acesso em: 19 nov. 2024. , 2022
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      Thomas, S., Nguyen, T. A., Ahmadi, M., Yasin, G., & Joshi, N. K. J. (2022). Silicon-based hybrid nanoparticles: fundamentals, properties, and applications. Amsterdam: Elsevier. doi:10.1016/C2020-0-00520-7
    • NLM

      Thomas S, Nguyen TA, Ahmadi M, Yasin G, Joshi NKJ. Silicon-based hybrid nanoparticles: fundamentals, properties, and applications [Internet]. 2022 ;[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/C2020-0-00520-7
    • Vancouver

      Thomas S, Nguyen TA, Ahmadi M, Yasin G, Joshi NKJ. Silicon-based hybrid nanoparticles: fundamentals, properties, and applications [Internet]. 2022 ;[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/C2020-0-00520-7
  • Source: Canal YouTube GNano Eventos. Conference titles: Simpósio de Nanotecnologia Aplicada à Medicina e ao Agronegócio - SiNMA. Unidade: IFSC

    Subjects: NANOPARTÍCULAS, POLÍMEROS (MATERIAIS), MEDICINA, COVID-19, CORONAVIRUS

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      LEITE, Celisnolia Morais. Desenvolvimento de um sistema nanoestruturado polimérico para o tratamento da COVID-19. 2022, Anais.. São Carlos: Universidade de São Paulo - USP, Instituto de Física de São Carlos - IFSC, 2022. Disponível em: https://www.youtube.com/watch?v=sBlOiFHweZE. Acesso em: 19 nov. 2024.
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      Leite, C. M. (2022). Desenvolvimento de um sistema nanoestruturado polimérico para o tratamento da COVID-19. In Canal YouTube GNano Eventos (Vol. 21 no 2022). São Carlos: Universidade de São Paulo - USP, Instituto de Física de São Carlos - IFSC. Recuperado de https://www.youtube.com/watch?v=sBlOiFHweZE
    • NLM

      Leite CM. Desenvolvimento de um sistema nanoestruturado polimérico para o tratamento da COVID-19 [Internet]. Canal YouTube GNano Eventos. 2022 ;21 no 2022[citado 2024 nov. 19 ] Available from: https://www.youtube.com/watch?v=sBlOiFHweZE
    • Vancouver

      Leite CM. Desenvolvimento de um sistema nanoestruturado polimérico para o tratamento da COVID-19 [Internet]. Canal YouTube GNano Eventos. 2022 ;21 no 2022[citado 2024 nov. 19 ] Available from: https://www.youtube.com/watch?v=sBlOiFHweZE
  • Source: Journal of Electroanalytical Chemistry. Unidade: IFSC

    Subjects: FILMES FINOS, POLÍMEROS (MATERIAIS), NANOPARTÍCULAS

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      GROSS, Marcos A. et al. High-performance supercapacitor electrode based on a layer-by-layer assembled maghemite/magnetite/reduced graphene oxide nanocomposite film. Journal of Electroanalytical Chemistry, v. 908, p. 116123-1-116123-10, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.jelechem.2022.116123. Acesso em: 19 nov. 2024.
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      Gross, M. A., Monroe, K. A., Hawkins, S., Quirino, R. L., Moreira, S. G. C., Silva, M. de A. P. da, et al. (2022). High-performance supercapacitor electrode based on a layer-by-layer assembled maghemite/magnetite/reduced graphene oxide nanocomposite film. Journal of Electroanalytical Chemistry, 908, 116123-1-116123-10. doi:10.1016/j.jelechem.2022.116123
    • NLM

      Gross MA, Monroe KA, Hawkins S, Quirino RL, Moreira SGC, Silva M de AP da, Almeida SV de, Faria RC, Paterno LG. High-performance supercapacitor electrode based on a layer-by-layer assembled maghemite/magnetite/reduced graphene oxide nanocomposite film [Internet]. Journal of Electroanalytical Chemistry. 2022 ; 908 116123-1-116123-10.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.jelechem.2022.116123
    • Vancouver

      Gross MA, Monroe KA, Hawkins S, Quirino RL, Moreira SGC, Silva M de AP da, Almeida SV de, Faria RC, Paterno LG. High-performance supercapacitor electrode based on a layer-by-layer assembled maghemite/magnetite/reduced graphene oxide nanocomposite film [Internet]. Journal of Electroanalytical Chemistry. 2022 ; 908 116123-1-116123-10.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.jelechem.2022.116123
  • Source: Advanced Photonics Research. Unidade: IFSC

    Subjects: BIOPOLÍMEROS, NANOPARTÍCULAS, POLÍMEROS (MATERIAIS)

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      MATURI, Fernando E. et al. Sustainable smart tags with two-step verification for anticounterfeiting triggered by the photothermal response of upconverting nanoparticles. Advanced Photonics Research, v. 3, n. 6, p. 2100227-1-2100227-9, 2022Tradução . . Disponível em: https://doi.org/10.1002/adpr.202100227. Acesso em: 19 nov. 2024.
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      Maturi, F. E., Brites, C. D. S., Silva, R. R. da, Nigoghossian, K., Masso, D. W., Ferreira, R. A. S., et al. (2022). Sustainable smart tags with two-step verification for anticounterfeiting triggered by the photothermal response of upconverting nanoparticles. Advanced Photonics Research, 3( 6), 2100227-1-2100227-9. doi:10.1002/adpr.202100227
    • NLM

      Maturi FE, Brites CDS, Silva RR da, Nigoghossian K, Masso DW, Ferreira RAS, Ribeiro SJL, Carlos LD. Sustainable smart tags with two-step verification for anticounterfeiting triggered by the photothermal response of upconverting nanoparticles [Internet]. Advanced Photonics Research. 2022 ; 3( 6): 2100227-1-2100227-9.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1002/adpr.202100227
    • Vancouver

      Maturi FE, Brites CDS, Silva RR da, Nigoghossian K, Masso DW, Ferreira RAS, Ribeiro SJL, Carlos LD. Sustainable smart tags with two-step verification for anticounterfeiting triggered by the photothermal response of upconverting nanoparticles [Internet]. Advanced Photonics Research. 2022 ; 3( 6): 2100227-1-2100227-9.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1002/adpr.202100227
  • Source: ACS Omega. Unidade: IFSC

    Subjects: NANOPARTÍCULAS, POLÍMEROS (MATERIAIS), ELETROSTÁTICA, ADSORÇÃO

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      CASTRO, Lucas Daniel Chiba de et al. An efficient substrate-free method of producing SiO2‑based nanoparticles for superhydrophobic applications. ACS Omega, v. 7, n. Ja 2022, p. 1259-1263 + supporting information, 2022Tradução . . Disponível em: https://doi.org/10.1021/acsomega.1c05878. Acesso em: 19 nov. 2024.
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      Castro, L. D. C. de, Larocca, N. M., Oliveira Junior, O. N. de, & Pessan, L. A. (2022). An efficient substrate-free method of producing SiO2‑based nanoparticles for superhydrophobic applications. ACS Omega, 7( Ja 2022), 1259-1263 + supporting information. doi:10.1021/acsomega.1c05878
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      Castro LDC de, Larocca NM, Oliveira Junior ON de, Pessan LA. An efficient substrate-free method of producing SiO2‑based nanoparticles for superhydrophobic applications [Internet]. ACS Omega. 2022 ; 7( Ja 2022): 1259-1263 + supporting information.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1021/acsomega.1c05878
    • Vancouver

      Castro LDC de, Larocca NM, Oliveira Junior ON de, Pessan LA. An efficient substrate-free method of producing SiO2‑based nanoparticles for superhydrophobic applications [Internet]. ACS Omega. 2022 ; 7( Ja 2022): 1259-1263 + supporting information.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1021/acsomega.1c05878
  • Source: ACS Applied Nano Materials. Unidade: IFSC

    Subjects: POLÍMEROS (MATERIAIS), FILMES FINOS, NANOPARTÍCULAS

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      CASTRO, Lucas Daniel Chiba de e OLIVEIRA JUNIOR, Osvaldo Novais de. Silica nanoparticle/polymer film-based soft mechanochromic devices for detecting mechanical deformation and stress cycles in varied environments. ACS Applied Nano Materials, v. 5, n. 2, p. 2906-2911, 2022Tradução . . Disponível em: https://doi.org/10.1021/acsanm.2c00102. Acesso em: 19 nov. 2024.
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      Castro, L. D. C. de, & Oliveira Junior, O. N. de. (2022). Silica nanoparticle/polymer film-based soft mechanochromic devices for detecting mechanical deformation and stress cycles in varied environments. ACS Applied Nano Materials, 5( 2), 2906-2911. doi:10.1021/acsanm.2c00102
    • NLM

      Castro LDC de, Oliveira Junior ON de. Silica nanoparticle/polymer film-based soft mechanochromic devices for detecting mechanical deformation and stress cycles in varied environments [Internet]. ACS Applied Nano Materials. 2022 ; 5( 2): 2906-2911.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1021/acsanm.2c00102
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      Castro LDC de, Oliveira Junior ON de. Silica nanoparticle/polymer film-based soft mechanochromic devices for detecting mechanical deformation and stress cycles in varied environments [Internet]. ACS Applied Nano Materials. 2022 ; 5( 2): 2906-2911.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1021/acsanm.2c00102
  • Source: Science of the Total Environment. Unidades: IFSC, EP

    Subjects: FILMES FINOS, POLÍMEROS (MATERIAIS), NANOPARTÍCULAS

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      GROSS, Marcos A. et al. Multilayered iron oxide/reduced graphene oxide nanocomposite electrode for voltammetric sensing of bisphenol-A in lake water and thermal paper samples. Science of the Total Environment, v. 763, p. 142985-1-142985-11, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.scitotenv.2020.142985. Acesso em: 19 nov. 2024.
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      Gross, M. A., Moreira, S. G. C., Silva, M. de A. P. da, Sodré, F. F., & Paterno, L. G. (2021). Multilayered iron oxide/reduced graphene oxide nanocomposite electrode for voltammetric sensing of bisphenol-A in lake water and thermal paper samples. Science of the Total Environment, 763, 142985-1-142985-11. doi:10.1016/j.scitotenv.2020.142985
    • NLM

      Gross MA, Moreira SGC, Silva M de AP da, Sodré FF, Paterno LG. Multilayered iron oxide/reduced graphene oxide nanocomposite electrode for voltammetric sensing of bisphenol-A in lake water and thermal paper samples [Internet]. Science of the Total Environment. 2021 ; 763 142985-1-142985-11.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.scitotenv.2020.142985
    • Vancouver

      Gross MA, Moreira SGC, Silva M de AP da, Sodré FF, Paterno LG. Multilayered iron oxide/reduced graphene oxide nanocomposite electrode for voltammetric sensing of bisphenol-A in lake water and thermal paper samples [Internet]. Science of the Total Environment. 2021 ; 763 142985-1-142985-11.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1016/j.scitotenv.2020.142985
  • Source: Program. Conference titles: Brazil MRS Meeting. Unidade: IFSC

    Subjects: POLÍMEROS (MATERIAIS), FILMES FINOS, NANOPARTÍCULAS

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      FERREIRA, Rafael Cintra Hensel et al. Impedimetric electronic tongue based on poly(allylamine hydrochloride)/poly(sodium 4-styrenesulfonate) films decorated with silver nanoparticles. 2021, Anais.. Rio de Janeiro: Sociedade Brasileira de Pesquisa em Materiais - SBPMat, 2021. Disponível em: https://repositorio.usp.br/directbitstream/8bd2b22f-d69e-43a3-9ebc-4af08e747b21/3040161.pdf. Acesso em: 19 nov. 2024.
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      Ferreira, R. C. H., Braunger, M. L., Oliveira, B., Shimizu, F. M., Oliveira Junior, O. N. de, Hillenkamp, M., et al. (2021). Impedimetric electronic tongue based on poly(allylamine hydrochloride)/poly(sodium 4-styrenesulfonate) films decorated with silver nanoparticles. In Program. Rio de Janeiro: Sociedade Brasileira de Pesquisa em Materiais - SBPMat. Recuperado de https://repositorio.usp.br/directbitstream/8bd2b22f-d69e-43a3-9ebc-4af08e747b21/3040161.pdf
    • NLM

      Ferreira RCH, Braunger ML, Oliveira B, Shimizu FM, Oliveira Junior ON de, Hillenkamp M, Riul Junior A, Rodrigues V. Impedimetric electronic tongue based on poly(allylamine hydrochloride)/poly(sodium 4-styrenesulfonate) films decorated with silver nanoparticles [Internet]. Program. 2021 ;[citado 2024 nov. 19 ] Available from: https://repositorio.usp.br/directbitstream/8bd2b22f-d69e-43a3-9ebc-4af08e747b21/3040161.pdf
    • Vancouver

      Ferreira RCH, Braunger ML, Oliveira B, Shimizu FM, Oliveira Junior ON de, Hillenkamp M, Riul Junior A, Rodrigues V. Impedimetric electronic tongue based on poly(allylamine hydrochloride)/poly(sodium 4-styrenesulfonate) films decorated with silver nanoparticles [Internet]. Program. 2021 ;[citado 2024 nov. 19 ] Available from: https://repositorio.usp.br/directbitstream/8bd2b22f-d69e-43a3-9ebc-4af08e747b21/3040161.pdf
  • Source: Electroanalysis. Unidades: IFSC, EP

    Subjects: POLÍMEROS (MATERIAIS), FILMES FINOS, NANOPARTÍCULAS

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      RIBEIRO, Camila de L. et al. Voltammetric detection of ethinylestradiol in water and synthetic urine samples using a Ni(II) Phthalocyanine/iron oxide nanocomposite electrode. Electroanalysis, v. 33, n. 3, p. 609-617, 2021Tradução . . Disponível em: https://doi.org/10.1002/elan.202060396. Acesso em: 19 nov. 2024.
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      Ribeiro, C. de L., Souza, J. R. de, Silva, M. de A. P. da, & Paterno, L. G. (2021). Voltammetric detection of ethinylestradiol in water and synthetic urine samples using a Ni(II) Phthalocyanine/iron oxide nanocomposite electrode. Electroanalysis, 33( 3), 609-617. doi:10.1002/elan.202060396
    • NLM

      Ribeiro C de L, Souza JR de, Silva M de AP da, Paterno LG. Voltammetric detection of ethinylestradiol in water and synthetic urine samples using a Ni(II) Phthalocyanine/iron oxide nanocomposite electrode [Internet]. Electroanalysis. 2021 ; 33( 3): 609-617.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1002/elan.202060396
    • Vancouver

      Ribeiro C de L, Souza JR de, Silva M de AP da, Paterno LG. Voltammetric detection of ethinylestradiol in water and synthetic urine samples using a Ni(II) Phthalocyanine/iron oxide nanocomposite electrode [Internet]. Electroanalysis. 2021 ; 33( 3): 609-617.[citado 2024 nov. 19 ] Available from: https://doi.org/10.1002/elan.202060396

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