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Materials Research: ibero-american Journal of Materials. . São Carlos: Universidade Federal de São Carlos - UFSCar. . Acesso em: 30 abr. 2024. , 2024
APA
Materials Research: ibero-american Journal of Materials. (2024). Materials Research: ibero-american Journal of Materials. São Carlos: Universidade Federal de São Carlos - UFSCar.
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MORAES, Nícolas Perciani de et al. Cross-linked cellulose beads as an eco-friendly support for ZnO/SnO2/carbon xerogel hybrid photocatalyst: Exploring the synergy between adsorption and photocatalysis under simulated sunlight. International Journal of Biological Macromolecules, v. 254- Part2, n. art. 127826, p. 1-13, 2024Tradução . . Disponível em: https://doi.org/10.1016/j.ijbiomac.2023.127826. Acesso em: 30 abr. 2024.
APA
Moraes, N. P. de, Pereira, R. A., Silva, T. V. C. da, Silva, B. H. B. da, Assis, G. P. de, Campos, T. M. B., et al. (2024). Cross-linked cellulose beads as an eco-friendly support for ZnO/SnO2/carbon xerogel hybrid photocatalyst: Exploring the synergy between adsorption and photocatalysis under simulated sunlight. International Journal of Biological Macromolecules, 254- Part2( art. 127826), 1-13. doi:10.1016/j.ijbiomac.2023.127826
NLM
Moraes NP de, Pereira RA, Silva TVC da, Silva BHB da, Assis GP de, Campos TMB, Thim GP, Lanza MR de V, Freitas L de, Rodrigues LA. Cross-linked cellulose beads as an eco-friendly support for ZnO/SnO2/carbon xerogel hybrid photocatalyst: Exploring the synergy between adsorption and photocatalysis under simulated sunlight [Internet]. International Journal of Biological Macromolecules. 2024 ;254- Part2( art. 127826): 1-13.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/j.ijbiomac.2023.127826
Vancouver
Moraes NP de, Pereira RA, Silva TVC da, Silva BHB da, Assis GP de, Campos TMB, Thim GP, Lanza MR de V, Freitas L de, Rodrigues LA. Cross-linked cellulose beads as an eco-friendly support for ZnO/SnO2/carbon xerogel hybrid photocatalyst: Exploring the synergy between adsorption and photocatalysis under simulated sunlight [Internet]. International Journal of Biological Macromolecules. 2024 ;254- Part2( art. 127826): 1-13.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/j.ijbiomac.2023.127826
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GOUVEA, Maira Elizabeth Vicente et al. Fluidized bed reactor for 4-chlorophenol photodegradation via solar and visible radiation using ZnO/g-C3N4/carbon xerogel as a photocatalyst. Chemical Physics Impact, v. 8, p. 100428, 2024Tradução . . Disponível em: https://doi.org/10.1016/j.chphi.2023.100428. Acesso em: 30 abr. 2024.
APA
Gouvea, M. E. V., Boldrin, F. H. C., Silva, B. H. B. da, Paiva, L. K., Moraes, N. P. de, Aguiar, L. G. de, & Rodrigues, L. A. (2024). Fluidized bed reactor for 4-chlorophenol photodegradation via solar and visible radiation using ZnO/g-C3N4/carbon xerogel as a photocatalyst. Chemical Physics Impact, 8, 100428. doi:10.1016/j.chphi.2023.100428
NLM
Gouvea MEV, Boldrin FHC, Silva BHB da, Paiva LK, Moraes NP de, Aguiar LG de, Rodrigues LA. Fluidized bed reactor for 4-chlorophenol photodegradation via solar and visible radiation using ZnO/g-C3N4/carbon xerogel as a photocatalyst [Internet]. Chemical Physics Impact. 2024 ;8 100428.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/j.chphi.2023.100428
Vancouver
Gouvea MEV, Boldrin FHC, Silva BHB da, Paiva LK, Moraes NP de, Aguiar LG de, Rodrigues LA. Fluidized bed reactor for 4-chlorophenol photodegradation via solar and visible radiation using ZnO/g-C3N4/carbon xerogel as a photocatalyst [Internet]. Chemical Physics Impact. 2024 ;8 100428.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/j.chphi.2023.100428
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SASOUNIAN, Rafaela et al. Innovative approaches to an eco-friendly cosmetic industry: a review of sustainable ingredients. Clean Technologies, v. 6, n. 1, p. 176-198, 2024Tradução . . Disponível em: https://dx.doi.org/10.3390/cleantechnol6010011. Acesso em: 30 abr. 2024.
APA
Sasounian, R., Martinez, R. M., Lopes, A. M., Giarolla, J., Rosado, C., Magalhães, W. V., et al. (2024). Innovative approaches to an eco-friendly cosmetic industry: a review of sustainable ingredients. Clean Technologies, 6( 1), 176-198. doi:10.3390/cleantechnol6010011
NLM
Sasounian R, Martinez RM, Lopes AM, Giarolla J, Rosado C, Magalhães WV, Velasco MVR, Baby AR. Innovative approaches to an eco-friendly cosmetic industry: a review of sustainable ingredients [Internet]. Clean Technologies. 2024 ; 6( 1): 176-198.[citado 2024 abr. 30 ] Available from: https://dx.doi.org/10.3390/cleantechnol6010011
Vancouver
Sasounian R, Martinez RM, Lopes AM, Giarolla J, Rosado C, Magalhães WV, Velasco MVR, Baby AR. Innovative approaches to an eco-friendly cosmetic industry: a review of sustainable ingredients [Internet]. Clean Technologies. 2024 ; 6( 1): 176-198.[citado 2024 abr. 30 ] Available from: https://dx.doi.org/10.3390/cleantechnol6010011
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SANTOS, Julio Cesar dos et al. Sandwich structures of aluminium skins and egg-box-shaped cores made with biobased foam and composites. Journal of Building Engineering, v. 88, p. 1-19, 2024Tradução . . Disponível em: https://dx.doi.org/10.1016/j.jobe.2024.109099. Acesso em: 30 abr. 2024.
APA
Santos, J. C. dos, Silva, R. J. da, Oliveira, L. Á. de, Freire, R. T. S., Tarpani, J. R., Thomas, C., et al. (2024). Sandwich structures of aluminium skins and egg-box-shaped cores made with biobased foam and composites. Journal of Building Engineering, 88, 1-19. doi:10.1016/j.jobe.2024.109099
NLM
Santos JC dos, Silva RJ da, Oliveira LÁ de, Freire RTS, Tarpani JR, Thomas C, Panzera TH, Scarpa F. Sandwich structures of aluminium skins and egg-box-shaped cores made with biobased foam and composites [Internet]. Journal of Building Engineering. 2024 ; 88 1-19.[citado 2024 abr. 30 ] Available from: https://dx.doi.org/10.1016/j.jobe.2024.109099
Vancouver
Santos JC dos, Silva RJ da, Oliveira LÁ de, Freire RTS, Tarpani JR, Thomas C, Panzera TH, Scarpa F. Sandwich structures of aluminium skins and egg-box-shaped cores made with biobased foam and composites [Internet]. Journal of Building Engineering. 2024 ; 88 1-19.[citado 2024 abr. 30 ] Available from: https://dx.doi.org/10.1016/j.jobe.2024.109099
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ALVES, Samara Cardoso et al. Microbial meat: A sustainable vegan protein source produced from agri-waste to feed the world. Food research international, v. 166, p. 1-12, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.foodres.2023.112596. Acesso em: 30 abr. 2024.
APA
Alves, S. C., Ruiz, E. D., Lisboa, B., Sharma, M., Mussatto, S. I., Thakur, V. K., et al. (2023). Microbial meat: A sustainable vegan protein source produced from agri-waste to feed the world. Food research international, 166, 1-12. doi:10.1016/j.foodres.2023.112596
NLM
Alves SC, Ruiz ED, Lisboa B, Sharma M, Mussatto SI, Thakur VK, Kalaskar DM, Gupta VK, Chandel AK. Microbial meat: A sustainable vegan protein source produced from agri-waste to feed the world [Internet]. Food research international. 2023 ;166 1-12.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/j.foodres.2023.112596
Vancouver
Alves SC, Ruiz ED, Lisboa B, Sharma M, Mussatto SI, Thakur VK, Kalaskar DM, Gupta VK, Chandel AK. Microbial meat: A sustainable vegan protein source produced from agri-waste to feed the world [Internet]. Food research international. 2023 ;166 1-12.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/j.foodres.2023.112596
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RIBEAUX, Daylin Rubio et al. Biosurfactant Production by Solid-state Fermentation in Biorefineries. Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. Tradução . New Jersey: John Wiley & Sons, 2023. p. 95-115. Disponível em: https://doi.org/10.1002/9781119854395.ch5. Acesso em: 30 abr. 2024.
APA
Ribeaux, D. R., Costa, R. A. M. da, Rodriguez, D. M., Marques, N. S. A. do A., Silva, G. M., & Silva, S. S. da. (2023). Biosurfactant Production by Solid-state Fermentation in Biorefineries. In Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications (p. 95-115). New Jersey: John Wiley & Sons. doi:10.1002/9781119854395.ch5
NLM
Ribeaux DR, Costa RAM da, Rodriguez DM, Marques NSA do A, Silva GM, Silva SS da. Biosurfactant Production by Solid-state Fermentation in Biorefineries [Internet]. In: Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. New Jersey: John Wiley & Sons; 2023. p. 95-115.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1002/9781119854395.ch5
Vancouver
Ribeaux DR, Costa RAM da, Rodriguez DM, Marques NSA do A, Silva GM, Silva SS da. Biosurfactant Production by Solid-state Fermentation in Biorefineries [Internet]. In: Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. New Jersey: John Wiley & Sons; 2023. p. 95-115.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1002/9781119854395.ch5
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MORAES, Nícolas Perciani de et al. Effect of fluoride on the properties of spray-dried niobium-based composites: structure, porosity, particle size, morphology, and photoactivity. Chemical engineering communications, v. 210, n. 2, p. 291-296, 2023Tradução . . Disponível em: https://doi.org/10.1080/00986445.2021.1993202. Acesso em: 30 abr. 2024.
APA
Moraes, N. P. de, Anselmo, R. B., Bacani, R., Sartor, L. O., Rodrigues, L. A., & Carvalho, L. C. e. (2023). Effect of fluoride on the properties of spray-dried niobium-based composites: structure, porosity, particle size, morphology, and photoactivity. Chemical engineering communications, 210( 2), 291-296. doi:10.1080/00986445.2021.1993202
NLM
Moraes NP de, Anselmo RB, Bacani R, Sartor LO, Rodrigues LA, Carvalho LC e. Effect of fluoride on the properties of spray-dried niobium-based composites: structure, porosity, particle size, morphology, and photoactivity [Internet]. Chemical engineering communications. 2023 ;210( 2): 291-296.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1080/00986445.2021.1993202
Vancouver
Moraes NP de, Anselmo RB, Bacani R, Sartor LO, Rodrigues LA, Carvalho LC e. Effect of fluoride on the properties of spray-dried niobium-based composites: structure, porosity, particle size, morphology, and photoactivity [Internet]. Chemical engineering communications. 2023 ;210( 2): 291-296.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1080/00986445.2021.1993202
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MARCELINO, Paulo Ricardo Franco et al. Biosurfactant Production in the Context of Biorefineries. Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. Tradução . [S.l.]: John Wiley & Sons, 2023. p. 77-93. Disponível em: https://doi.org/10.1002/9781119854395.ch4. Acesso em: 30 abr. 2024.
APA
Marcelino, P. R. F., Ramos, C. A., Ramos, M. T., Pereira, R. M., Philippini, R. R., Matsumura, E. E., & Silva, S. S. da. (2023). Biosurfactant Production in the Context of Biorefineries. In Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications (p. 77-93). John Wiley & Sons. doi:10.1002/9781119854395.ch4
NLM
Marcelino PRF, Ramos CA, Ramos MT, Pereira RM, Philippini RR, Matsumura EE, Silva SS da. Biosurfactant Production in the Context of Biorefineries [Internet]. In: Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. John Wiley & Sons; 2023. p. 77-93.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1002/9781119854395.ch4
Vancouver
Marcelino PRF, Ramos CA, Ramos MT, Pereira RM, Philippini RR, Matsumura EE, Silva SS da. Biosurfactant Production in the Context of Biorefineries [Internet]. In: Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. John Wiley & Sons; 2023. p. 77-93.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1002/9781119854395.ch4
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MARCELINO, Paulo Ricardo Franco et al. Biosurfactants: concepts, biological functions, classifications general proprieties and applications. Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. Tradução . [S.l.]: John Wiley & Sons, 2023. p. 1-1. Disponível em: https://doi.org/10.1002/9781119854395.cintro. Acesso em: 30 abr. 2024.
APA
Marcelino, P. R. F., Ramos, C. A., Silva, G. de O., Guzman, R. R., Silva, S. S. da, & Lopez, A. O. (2023). Biosurfactants: concepts, biological functions, classifications general proprieties and applications. In Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications (p. 1-1). John Wiley & Sons. doi:10.1002/9781119854395.cintro
NLM
Marcelino PRF, Ramos CA, Silva G de O, Guzman RR, Silva SS da, Lopez AO. Biosurfactants: concepts, biological functions, classifications general proprieties and applications [Internet]. In: Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. John Wiley & Sons; 2023. p. 1-1.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1002/9781119854395.cintro
Vancouver
Marcelino PRF, Ramos CA, Silva G de O, Guzman RR, Silva SS da, Lopez AO. Biosurfactants: concepts, biological functions, classifications general proprieties and applications [Internet]. In: Biosurfactants and Sustainability: From Biorefineries Production to Versatile Applications. John Wiley & Sons; 2023. p. 1-1.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1002/9781119854395.cintro
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RODRIGUES, Karla Faquine et al. Enhanced 4-chlorophenol Degradation under Visible and Solar Radiation through TiO2/g-C3N4 Z-Scheme Heterojunction. Biointerface research in applied chemistry, v. 13, n. 3, p. 1-18, 2023Tradução . . Disponível em: https://doi.org/10.33263/BRIAC133.203. Acesso em: 30 abr. 2024.
APA
Rodrigues, K. F., Moraes, N. P. de, Santos, A. S. dos, Montanheiro, T. L. do A., Campos, T. M. B., Thim, G. P., et al. (2023). Enhanced 4-chlorophenol Degradation under Visible and Solar Radiation through TiO2/g-C3N4 Z-Scheme Heterojunction. Biointerface research in applied chemistry, 13( 3), 1-18. doi:10.33263/BRIAC133.203
NLM
Rodrigues KF, Moraes NP de, Santos AS dos, Montanheiro TL do A, Campos TMB, Thim GP, Rodrigues LA, Brunelli DD. Enhanced 4-chlorophenol Degradation under Visible and Solar Radiation through TiO2/g-C3N4 Z-Scheme Heterojunction [Internet]. Biointerface research in applied chemistry. 2023 ;13( 3): 1-18.[citado 2024 abr. 30 ] Available from: https://doi.org/10.33263/BRIAC133.203
Vancouver
Rodrigues KF, Moraes NP de, Santos AS dos, Montanheiro TL do A, Campos TMB, Thim GP, Rodrigues LA, Brunelli DD. Enhanced 4-chlorophenol Degradation under Visible and Solar Radiation through TiO2/g-C3N4 Z-Scheme Heterojunction [Internet]. Biointerface research in applied chemistry. 2023 ;13( 3): 1-18.[citado 2024 abr. 30 ] Available from: https://doi.org/10.33263/BRIAC133.203
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BARBOSA, Fernanda G et al. Cleaner production of biosurfactants from yeasts. Advances in Yeast Biotechnology for Biofuels and Sustainability Value-Added Products and Environmental Remediation Applications. Tradução . New York: Elsevier, 2023. p. 219-248. Disponível em: https://doi.org/10.1016/B978-0-323-95449-5.00019-9. Acesso em: 30 abr. 2024.
APA
Barbosa, F. G., Silva, S. S. da, Ribeaux, D. R., Costa, R. A. M. da, Viana, M. C. A., Souza, P. V. R. de, et al. (2023). Cleaner production of biosurfactants from yeasts. In Advances in Yeast Biotechnology for Biofuels and Sustainability Value-Added Products and Environmental Remediation Applications (p. 219-248). New York: Elsevier. doi:10.1016/B978-0-323-95449-5.00019-9
NLM
Barbosa FG, Silva SS da, Ribeaux DR, Costa RAM da, Viana MCA, Souza PVR de, Raymundo CAFR, Antunes MA, Shimazu MAG, Marcelino PRF. Cleaner production of biosurfactants from yeasts [Internet]. In: Advances in Yeast Biotechnology for Biofuels and Sustainability Value-Added Products and Environmental Remediation Applications. New York: Elsevier; 2023. p. 219-248.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/B978-0-323-95449-5.00019-9
Vancouver
Barbosa FG, Silva SS da, Ribeaux DR, Costa RAM da, Viana MCA, Souza PVR de, Raymundo CAFR, Antunes MA, Shimazu MAG, Marcelino PRF. Cleaner production of biosurfactants from yeasts [Internet]. In: Advances in Yeast Biotechnology for Biofuels and Sustainability Value-Added Products and Environmental Remediation Applications. New York: Elsevier; 2023. p. 219-248.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/B978-0-323-95449-5.00019-9
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VENDITTI, Lucca Moreira et al. Technology commercialization: tools for offering technologies protected through intellectual property. Revista de gestão e secretariado, v. 14, n. 8, p. 14425-14458, 2023Tradução . . Disponível em: https://doi.org/10.7769/gesec.v14i8.2176. Acesso em: 30 abr. 2024.
APA
Venditti, L. M., Valdivia, M. R., Solano, D. B. C., Verma, S., & Andrade, H. de S. (2023). Technology commercialization: tools for offering technologies protected through intellectual property. Revista de gestão e secretariado, 14( 8), 14425-14458. doi:10.7769/gesec.v14i8.2176
NLM
Venditti LM, Valdivia MR, Solano DBC, Verma S, Andrade H de S. Technology commercialization: tools for offering technologies protected through intellectual property [Internet]. Revista de gestão e secretariado. 2023 ; 14( 8): 14425-14458.[citado 2024 abr. 30 ] Available from: https://doi.org/10.7769/gesec.v14i8.2176
Vancouver
Venditti LM, Valdivia MR, Solano DBC, Verma S, Andrade H de S. Technology commercialization: tools for offering technologies protected through intellectual property [Internet]. Revista de gestão e secretariado. 2023 ; 14( 8): 14425-14458.[citado 2024 abr. 30 ] Available from: https://doi.org/10.7769/gesec.v14i8.2176
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GODOY, William M. et al. Synthesis of Vinyl-Trivinyl Acidic Resins for Application in Catalysis: Statistical Study and Site Accessibility Assessment. Catalysts, v. 13, n. 1, p. 1-14, 2023Tradução . . Disponível em: https://doi.org/10.3390/catal13010181. Acesso em: 30 abr. 2024.
APA
Godoy, W. M., Aguiar, L. G. de, Graça, N. R. de A., & Rodrigues, A. E. (2023). Synthesis of Vinyl-Trivinyl Acidic Resins for Application in Catalysis: Statistical Study and Site Accessibility Assessment. Catalysts, 13( 1), 1-14. doi:10.3390/catal13010181
NLM
Godoy WM, Aguiar LG de, Graça NR de A, Rodrigues AE. Synthesis of Vinyl-Trivinyl Acidic Resins for Application in Catalysis: Statistical Study and Site Accessibility Assessment [Internet]. Catalysts. 2023 ;13( 1): 1-14.[citado 2024 abr. 30 ] Available from: https://doi.org/10.3390/catal13010181
Vancouver
Godoy WM, Aguiar LG de, Graça NR de A, Rodrigues AE. Synthesis of Vinyl-Trivinyl Acidic Resins for Application in Catalysis: Statistical Study and Site Accessibility Assessment [Internet]. Catalysts. 2023 ;13( 1): 1-14.[citado 2024 abr. 30 ] Available from: https://doi.org/10.3390/catal13010181
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BONAMIGO, Andrei et al. Multiple case studies in dairy agribusiness: Lean thinking and value co-creation implications. Revista do LabDGE UFF, v. 1, n. 1, p. 01-27, 2023Tradução . . Disponível em: https://doi.org/10.22409/2675-4924.58600. Acesso em: 30 abr. 2024.
APA
Bonamigo, A., Correa, A. G. de A., Silva, L. C. da, & Andrade, H. de S. (2023). Multiple case studies in dairy agribusiness: Lean thinking and value co-creation implications. Revista do LabDGE UFF, 1( 1), 01-27. doi:10.22409/2675-4924.58600
NLM
Bonamigo A, Correa AG de A, Silva LC da, Andrade H de S. Multiple case studies in dairy agribusiness: Lean thinking and value co-creation implications [Internet]. Revista do LabDGE UFF. 2023 ;1( 1): 01-27.[citado 2024 abr. 30 ] Available from: https://doi.org/10.22409/2675-4924.58600
Vancouver
Bonamigo A, Correa AG de A, Silva LC da, Andrade H de S. Multiple case studies in dairy agribusiness: Lean thinking and value co-creation implications [Internet]. Revista do LabDGE UFF. 2023 ;1( 1): 01-27.[citado 2024 abr. 30 ] Available from: https://doi.org/10.22409/2675-4924.58600
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CENTENO, Astrid Corrales et al. Valorization of rice husk by hydrothermal processing to obtain valuable bioproducts: xylooligosaccharides and Monascus biopigment. Carbohydrate Polymer Technologies And Applications, v. 6, n. art. 100358, p. 1-9, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.carpta.2023.100358. Acesso em: 30 abr. 2024.
APA
Centeno, A. C., Sanchez-Muñoz, S., Gonçalves, I. S., Vera, F. P. S., Forte, M. B. S., Silva, S. S. da, et al. (2023). Valorization of rice husk by hydrothermal processing to obtain valuable bioproducts: xylooligosaccharides and Monascus biopigment. Carbohydrate Polymer Technologies And Applications, 6( art. 100358), 1-9. doi:10.1016/j.carpta.2023.100358
NLM
Centeno AC, Sanchez-Muñoz S, Gonçalves IS, Vera FPS, Forte MBS, Silva SS da, Santos JC dos, Hilares RT. Valorization of rice husk by hydrothermal processing to obtain valuable bioproducts: xylooligosaccharides and Monascus biopigment [Internet]. Carbohydrate Polymer Technologies And Applications. 2023 ;6( art. 100358): 1-9.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/j.carpta.2023.100358
Vancouver
Centeno AC, Sanchez-Muñoz S, Gonçalves IS, Vera FPS, Forte MBS, Silva SS da, Santos JC dos, Hilares RT. Valorization of rice husk by hydrothermal processing to obtain valuable bioproducts: xylooligosaccharides and Monascus biopigment [Internet]. Carbohydrate Polymer Technologies And Applications. 2023 ;6( art. 100358): 1-9.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1016/j.carpta.2023.100358
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PALLADINO, Fernanda et al. Diversity of Native Yeasts Isolated in Brazil and Their Biotechnological Potential for the Food Industry. Current Food Science and Technology Reports, p. 1-10, 2023Tradução . . Disponível em: https://doi.org/10.1007/s43555-023-00011-7. Acesso em: 30 abr. 2024.
APA
Palladino, F., Alvarenga, F. B. M., Rodrigues, R. de C. L. B., Santos, I. J. B., & Rosa, C. A. (2023). Diversity of Native Yeasts Isolated in Brazil and Their Biotechnological Potential for the Food Industry. Current Food Science and Technology Reports, 1-10. doi:10.1007/s43555-023-00011-7
NLM
Palladino F, Alvarenga FBM, Rodrigues R de CLB, Santos IJB, Rosa CA. Diversity of Native Yeasts Isolated in Brazil and Their Biotechnological Potential for the Food Industry [Internet]. Current Food Science and Technology Reports. 2023 ;1-10.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1007/s43555-023-00011-7
Vancouver
Palladino F, Alvarenga FBM, Rodrigues R de CLB, Santos IJB, Rosa CA. Diversity of Native Yeasts Isolated in Brazil and Their Biotechnological Potential for the Food Industry [Internet]. Current Food Science and Technology Reports. 2023 ;1-10.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1007/s43555-023-00011-7
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QUEIROZ, Edinara Lacerda et al. Melomel Production by Saccharomyces bayanus Using Hydrolyzed Jackfruit (Artocarpus heterophyllus) Pulp, Pollen, and Rice (Oryza sativa) Bran Extract as Unconventional Supplements. Industrial Biotechnology, v. 19, n. 3, p. 151-162, 2023Tradução . . Disponível em: https://doi.org/10.1089/ind.2023.0005. Acesso em: 30 abr. 2024.
APA
Queiroz, E. L., Almeida, T. B. de, Souza, S. M. A. de, Rodrigues, R. de C. L. B., & Martinez, E. A. (2023). Melomel Production by Saccharomyces bayanus Using Hydrolyzed Jackfruit (Artocarpus heterophyllus) Pulp, Pollen, and Rice (Oryza sativa) Bran Extract as Unconventional Supplements. Industrial Biotechnology, 19( 3), 151-162. doi:10.1089/ind.2023.0005
NLM
Queiroz EL, Almeida TB de, Souza SMA de, Rodrigues R de CLB, Martinez EA. Melomel Production by Saccharomyces bayanus Using Hydrolyzed Jackfruit (Artocarpus heterophyllus) Pulp, Pollen, and Rice (Oryza sativa) Bran Extract as Unconventional Supplements [Internet]. Industrial Biotechnology. 2023 ;19( 3): 151-162.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1089/ind.2023.0005
Vancouver
Queiroz EL, Almeida TB de, Souza SMA de, Rodrigues R de CLB, Martinez EA. Melomel Production by Saccharomyces bayanus Using Hydrolyzed Jackfruit (Artocarpus heterophyllus) Pulp, Pollen, and Rice (Oryza sativa) Bran Extract as Unconventional Supplements [Internet]. Industrial Biotechnology. 2023 ;19( 3): 151-162.[citado 2024 abr. 30 ] Available from: https://doi.org/10.1089/ind.2023.0005