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21. | | ARAÚJO, F. das C. B. de; CUNHA, R. L.; CUNHA, E. F. M. Concentração de carboidratos e umidade em raízes de mandioca açucarada (Manihot esculenta Crantz) Pará. In: SEMINÁRIO DE INICIAÇÃO CIENTÍFICA DA EMBRAPA AMAZÔNIA ORIENTAL, 17.; SEMINÁRIO DE PÓS-GRADUAÇÃO DA EMBRAPA AMAZÔNIA ORIENTAL, 1., 2013, Belém, PA. Anais. Belém, PA: Embrapa Amazônia Oriental, 2013. 1 CD-ROM. PIBIC 2013. Biblioteca(s): Embrapa Amazônia Oriental. |
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22. | | CARRÉRA, L. da C.; CUNHA, R. L.; CARRÉRA, A. G. P.; AGUIAR, R. O. Aplicação de espectroscopia de infravermelho FTIR para quantificação de álcoois em soluções. In: SEMINÁRIO DE INICIAÇÃO CIENTÍFICA, 20.; SEMINÁRIO DE PÓS-GRADUAÇÃO DA EMBRAPA AMAZÔNIA ORIENTAL, 4., 2016, Belém, PA. Anais. Belém, PA: Embrapa Amazônia Oriental, 2016. p. 215-218. Biblioteca(s): Embrapa Amazônia Oriental. |
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26. | | VOLPATO, M. M. L.; CUNHA, R. L. da; ALVES, H. M. R.; VIEIRA, T. G. C. Análise do comportamento da temperatura do ar em áreas cafeeiras arborizadas e a pleno sol em São Sebastião do Paraíso, MG. In: CONGRESSO BRASILEIRO DE PESQUISA CAFEEIROAS, 36., 2010, Guarapari. Anais...Brasília, DF: Embrapa Café, 2010. Biblioteca(s): Embrapa Café. |
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31. | | CARRÉRA, A. G. P.; CUNHA, R. L.; CUNHA, E. F. M.; AGUIAR, R. O. Avaliação da morfologia dos grânulos de amido de mandioca mansa e brava (Manihot esculenta Crantz). In: SEMINÁRIO DE INICIAÇÃO CIENTÍFICA, 19.; SEMINÁRIO DE PÓS-GRADUAÇÃO DA EMBRAPA AMAZÔNIA ORIENTAL, 3., 2015, Belém, PA. Anais. Belém, PA: Embrapa Amazônia Oriental, 2015. p. 360-363. Biblioteca(s): Embrapa Amazônia Oriental. |
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32. | | CAIRO, P. A. R.; OLIVEIRA, L. E. M. de; MESQUITA, A. C.; CUNHA, R. L. Atividade da rubisco e das enzimas de síntese e hidrólise de sacarose, associada à produtividade de látex, em clones de seringueira [Hevea brasiliensis (Willd ex. Adr. de Juss.) Muell.-Arg] cultivados em Lavras, MG. Ciência e Agrotecnologia, v. 33, n. 2, p. 369-376, mar./abr. 2009. Biblioteca(s): Embrapa Amazônia Oriental. |
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33. | | NASCIMENTO, S. V. do; MAGALHÃES, M. M.; VALADARES, R. B. da S.; CUNHA, R. L. Expressão diferencial de proteínas em raízes de palma de óleo sob amarelecimento fatal. In: SEMINÁRIO DE INICIAÇÃO CIENTÍFICA, 20.; SEMINÁRIO DE PÓS-GRADUAÇÃO DA EMBRAPA AMAZÔNIA ORIENTAL, 4., 2016, Belém, PA. Anais. Belém, PA: Embrapa Amazônia Oriental, 2016. p. 397-400. Biblioteca(s): Embrapa Amazônia Oriental. |
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34. | | ALVES, R. M.; AZEVEDO, R de; CUNHA, R. L.; SANTOS, V. S. dos. Estimação de parâmetros genéticos em genótipos de girassol no nordeste do estado do Pará. In: REUNIÃO NACIONAL DE PESQUISA DO GIRASSOL, 18., SIMPÓSIO NACIONAL SOBRE A CULTURA DO GIRASSOL, 6., 2009. Pelotas. Anais... Pelotas: Embrapa Clima Temperado, 2009. p. 166-172. Editado por Ana Claudia Barneche de Oliveira, Ana Paula Afonso Scheneid da Rosa e Márcia Vizzotto. Biblioteca(s): Embrapa Clima Temperado. |
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35. | | ALVES, R. M.; AZEVEDO, R. de; CUNHA, R. L.; SANTOS, V. S. dos. Estimação de parâmetros genéticos em genótipos de girassol no nordeste do estado do Pará. In: REUNIÃO NACIONAL DE PESQUISA DO GIRASSOL, 18.; SIMPÓSIO NACIONAL SOBRE A CULTURA DO GIRASSOL, 6., 2009, Pelotas. Anais... Pelotas: Embrapa Clima Temperado, 2009. p. 166-172. Editado por Ana Claudia Barneche de Oliveira, Ana Paula Afonso Scheneid da Rosa e Márcia Vizzotto. Biblioteca(s): Embrapa Amazônia Oriental. |
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37. | | PINHEIRO, S. B. da; SILVA, P. A.; MELO, W. dos S.; CUNHA, R. L. Estudo da cinética de secagem de cascas residuais na industrialização de abacaxi (Ananas comosus L.). In: SEMANA DE INTEGRAÇÃO EM CIÊNCIA, ARTE E TECNOLOGIA, 2.; FEIRA DE SABERES E SABORES, 1., 2012, Castanhal. Construindo saberes e valorizando sabores amazônicos. [Castanhal: IFPA,2012]. Biblioteca(s): Embrapa Amazônia Oriental. |
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39. | | SOUZA, E. dos S.; CUNHA, R. L.; SANTOS, H. C. P. Temperatura foliar, diferença de pressão de vapor entre a folha e o ar e índice de SPAD de pinhão manso em resposta a diferentes volumes de substrato. In: CONGRESSO NACIONAL DE BOTÂNICA, 59.; REUNIÃO NORDESTINA DE BOTÂNICA, 31.; CONGRESSO LATINOAMERICANO Y DEL CARIBE DE CACTÁCEAS Y OTRAS SUCULENTAS, 4.; CONGRESS OF INTERNATIONAL ORGANIZATION FOR SUCULENT PLANT STUDY, 30., 2008, Natal. Atualidades, desafios e perspectivas da botânica no Brasil: resumos. Natal: UFERSA: UFRN: SBB, 2008. Não paginado Biblioteca(s): Embrapa Amazônia Oriental. |
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Registro Completo
Biblioteca(s): |
Embrapa Agroindústria de Alimentos. |
Data corrente: |
18/05/2023 |
Data da última atualização: |
11/12/2023 |
Tipo da produção científica: |
Resumo em Anais de Congresso |
Autoria: |
LIMA, M A.; CUNHA, R. L. da; TONON, R. V.; ROSENTHAL, A. |
Afiliação: |
MARIAH ALMEIDA LIMA, UFRRJ; ROSIANE LOPES DA CUNHA, UNICAMP; RENATA VALERIANO TONON, CTAA; AMAURI ROSENTHAL, CTAA. |
Título: |
Impact of microfluidization and ultrasonication on the properties of sodium alginate-based pink pepper essential oil nanoemulsion. |
Ano de publicação: |
2023 |
Fonte/Imprenta: |
In: CONFERÊNCIA INTERNACIONAL DE PROTEÍNAS E COLOIDES ALIMENTARES, 9., 2023, Rio de Janeiro. Anais... Campinas, Galoá, 2023. |
Idioma: |
Inglês |
Notas: |
Poster 157698. Eixo temático: Colóides para filmes comestíveis. CIPCA. |
Conteúdo: |
Sodium alginate is a natural polysaccharide, mainly derived from brown algae species, and a proper raw material to be used in the production of edible films and coatings. Nanoemulsions incorporating certain essential oils, such as pink pepper essential oil (Schinus terebinthifolius Raddi), can be used in edible coatings and films to provide antimicrobial and antioxidant characteristics, aiming to improve the shelf life of several kinds of foods. Nanoemulsions are commonly produced using high energy methods, which involve the use of large amounts of disruptive forces that reduce bigger droplets into smaller ones using mechanical forces such as shear, compression, or cavitation, breaking down the high interfacial tension between oil and water. The aim of this study was to evaluate the effects of two high-energy methods on droplet size distribution, polydispersity, and droplet morphology of nanoemulsions based on sodium alginate-based pink pepper essential oil nanoemulsion. First, to prepare a pre-emulsion or coarse emulsion, sodium alginate (1.0% w/v) was dissolved in ultrapure water at 70 °C under magnetic stirring. Afterwards, pink pepper essential oil (1.0% w/v) and Tween 80 (ratio 1:1 in relation to the essential oil) were incorporated into the sodium alginate solution using a T18 Digital Ultra Turrax Mixer (IKA) operating at 13,000 rpm for 5 minutes. The two different high-energy processes used to obtain nanoemulsions were ultrasound (US) and microfluidization (MF). Ultrasound device operated with a frequency of 20 kHz and power of 350 W for 5 minutes, while microfluidizer LM20 was used at 15,000 psi for 5 cycles. Droplet size distribution and polydispersity values (PDI) were attained from dynamic light scattering (DLS), while microscopy was obtained with 100x magnification. Droplet size distribution showed that both processes reduced the droplet size to 69?406 nm (US) and 57?3378 nm (MF), showing bimodal distribution and high PDI values (0.380-0.489). Such a heterogeneity in the droplet size may favor the destabilization of the nanoemulsion by coalescence or Ostwald ripening phenomena. Bimodal distribution and high PDI values may be the result of the formation of sodium alginate agglomerates, observed in optical microscopy. These agglomerates can appear as an effect of the degradation of the sodium alginate caused by the phenomena of heating and cavitation, promoted by both processes (ultrasound and microfluidization). Therefore, the high-energy processes proved to be efficient in reducing the droplet size for the formation of the nanoemulsion, but, a better control of the temperature of the processes is necessary to avoid the degradation of the sodium alginate, thus resulting in a more stable nanoemulsion. MenosSodium alginate is a natural polysaccharide, mainly derived from brown algae species, and a proper raw material to be used in the production of edible films and coatings. Nanoemulsions incorporating certain essential oils, such as pink pepper essential oil (Schinus terebinthifolius Raddi), can be used in edible coatings and films to provide antimicrobial and antioxidant characteristics, aiming to improve the shelf life of several kinds of foods. Nanoemulsions are commonly produced using high energy methods, which involve the use of large amounts of disruptive forces that reduce bigger droplets into smaller ones using mechanical forces such as shear, compression, or cavitation, breaking down the high interfacial tension between oil and water. The aim of this study was to evaluate the effects of two high-energy methods on droplet size distribution, polydispersity, and droplet morphology of nanoemulsions based on sodium alginate-based pink pepper essential oil nanoemulsion. First, to prepare a pre-emulsion or coarse emulsion, sodium alginate (1.0% w/v) was dissolved in ultrapure water at 70 °C under magnetic stirring. Afterwards, pink pepper essential oil (1.0% w/v) and Tween 80 (ratio 1:1 in relation to the essential oil) were incorporated into the sodium alginate solution using a T18 Digital Ultra Turrax Mixer (IKA) operating at 13,000 rpm for 5 minutes. The two different high-energy processes used to obtain nanoemulsions were ultrasound (US) and microfluidization (MF). Ultra... Mostrar Tudo |
Palavras-Chave: |
High-energy methods; Nanoemulsion; Pink pepper essential oil. |
Categoria do assunto: |
-- |
Marc: |
LEADER 03528nam a2200193 a 4500 001 2153806 005 2023-12-11 008 2023 bl uuuu u00u1 u #d 100 1 $aLIMA, M A. 245 $aImpact of microfluidization and ultrasonication on the properties of sodium alginate-based pink pepper essential oil nanoemulsion.$h[electronic resource] 260 $aIn: CONFERÊNCIA INTERNACIONAL DE PROTEÍNAS E COLOIDES ALIMENTARES, 9., 2023, Rio de Janeiro. Anais... Campinas, Galoá$c2023 500 $aPoster 157698. Eixo temático: Colóides para filmes comestíveis. CIPCA. 520 $aSodium alginate is a natural polysaccharide, mainly derived from brown algae species, and a proper raw material to be used in the production of edible films and coatings. Nanoemulsions incorporating certain essential oils, such as pink pepper essential oil (Schinus terebinthifolius Raddi), can be used in edible coatings and films to provide antimicrobial and antioxidant characteristics, aiming to improve the shelf life of several kinds of foods. Nanoemulsions are commonly produced using high energy methods, which involve the use of large amounts of disruptive forces that reduce bigger droplets into smaller ones using mechanical forces such as shear, compression, or cavitation, breaking down the high interfacial tension between oil and water. The aim of this study was to evaluate the effects of two high-energy methods on droplet size distribution, polydispersity, and droplet morphology of nanoemulsions based on sodium alginate-based pink pepper essential oil nanoemulsion. First, to prepare a pre-emulsion or coarse emulsion, sodium alginate (1.0% w/v) was dissolved in ultrapure water at 70 °C under magnetic stirring. Afterwards, pink pepper essential oil (1.0% w/v) and Tween 80 (ratio 1:1 in relation to the essential oil) were incorporated into the sodium alginate solution using a T18 Digital Ultra Turrax Mixer (IKA) operating at 13,000 rpm for 5 minutes. The two different high-energy processes used to obtain nanoemulsions were ultrasound (US) and microfluidization (MF). Ultrasound device operated with a frequency of 20 kHz and power of 350 W for 5 minutes, while microfluidizer LM20 was used at 15,000 psi for 5 cycles. Droplet size distribution and polydispersity values (PDI) were attained from dynamic light scattering (DLS), while microscopy was obtained with 100x magnification. Droplet size distribution showed that both processes reduced the droplet size to 69?406 nm (US) and 57?3378 nm (MF), showing bimodal distribution and high PDI values (0.380-0.489). Such a heterogeneity in the droplet size may favor the destabilization of the nanoemulsion by coalescence or Ostwald ripening phenomena. Bimodal distribution and high PDI values may be the result of the formation of sodium alginate agglomerates, observed in optical microscopy. These agglomerates can appear as an effect of the degradation of the sodium alginate caused by the phenomena of heating and cavitation, promoted by both processes (ultrasound and microfluidization). Therefore, the high-energy processes proved to be efficient in reducing the droplet size for the formation of the nanoemulsion, but, a better control of the temperature of the processes is necessary to avoid the degradation of the sodium alginate, thus resulting in a more stable nanoemulsion. 653 $aHigh-energy methods 653 $aNanoemulsion 653 $aPink pepper essential oil 700 1 $aCUNHA, R. L. da 700 1 $aTONON, R. V. 700 1 $aROSENTHAL, A.
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