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Artigo de periodico
Unvealing the role of β-Ag2MoO4 microcrystals to the improvement of antibacterial activity (2020)
De Foggi, Camila Cristina; Oliveira, Regiane Cristina de; Assis, Marcelo; Fabbro, Maria Tereza; Mastelaro, Valmor Roberto ; Vergani, Carlos Eduardo; Gracia, Lourdes; Andrés, Juan; Longo, Elson; Machado, Ana Lucia
Source: Materials Science and Engineering C. Unidade: IFSC
Subjects: PRATA, BACILOS GRAM-POSITIVOS, BACTERICIDAS
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ABNT
DE FOGGI, Camila Cristina et al. Unvealing the role of β-Ag2MoO4 microcrystals to the improvement of antibacterial activity. Materials Science and Engineering C, v. 111, p. 110765-1-110765-8, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.msec.2020.110765. Acesso em: 04 jun. 2024.
APA
De Foggi, C. C., Oliveira, R. C. de, Assis, M., Fabbro, M. T., Mastelaro, V. R., Vergani, C. E., et al. (2020). Unvealing the role of β-Ag2MoO4 microcrystals to the improvement of antibacterial activity. Materials Science and Engineering C, 111, 110765-1-110765-8. doi:10.1016/j.msec.2020.110765
NLM
De Foggi CC, Oliveira RC de, Assis M, Fabbro MT, Mastelaro VR, Vergani CE, Gracia L, Andrés J, Longo E, Machado AL. Unvealing the role of β-Ag2MoO4 microcrystals to the improvement of antibacterial activity [Internet]. Materials Science and Engineering C. 2020 ; 111 110765-1-110765-8.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1016/j.msec.2020.110765
Vancouver
De Foggi CC, Oliveira RC de, Assis M, Fabbro MT, Mastelaro VR, Vergani CE, Gracia L, Andrés J, Longo E, Machado AL. Unvealing the role of β-Ag2MoO4 microcrystals to the improvement of antibacterial activity [Internet]. Materials Science and Engineering C. 2020 ; 111 110765-1-110765-8.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1016/j.msec.2020.110765
Artigo de periodico
Precise αs determination from charmonium sum rules (2020)
Boito, Diogo Rodrigues ; Mateu, Vicent
Source: Physics Letters B. Unidade: IFSC
Subjects: QUARK, COMPUTAÇÃO QUÂNTICA
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ABNT
BOITO, Diogo Rodrigues e MATEU, Vicent. Precise αs determination from charmonium sum rules. Physics Letters B, v. 806, p. 135482-1-135482-5, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.physletb.2020.135482. Acesso em: 04 jun. 2024.
APA
Boito, D. R., & Mateu, V. (2020). Precise αs determination from charmonium sum rules. Physics Letters B, 806, 135482-1-135482-5. doi:10.1016/j.physletb.2020.135482
NLM
Boito DR, Mateu V. Precise αs determination from charmonium sum rules [Internet]. Physics Letters B. 2020 ; 806 135482-1-135482-5.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1016/j.physletb.2020.135482
Vancouver
Boito DR, Mateu V. Precise αs determination from charmonium sum rules [Internet]. Physics Letters B. 2020 ; 806 135482-1-135482-5.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1016/j.physletb.2020.135482
Artigo de periodico
Precise determination of αs from relativistic quarkonium sum rules (2020)
Boito, Diogo Rodrigues ; Mateu, Vicent
Source: Journal of High Energy Physics. Unidade: IFSC
Subjects: QUARK, COMPUTAÇÃO QUÂNTICA
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ABNT
BOITO, Diogo Rodrigues e MATEU, Vicent. Precise determination of αs from relativistic quarkonium sum rules. Journal of High Energy Physics, v. 2020, n. 3, p. 094-1-094-35, 2020Tradução . . Disponível em: https://doi.org/10.1007/JHEP03(2020)094. Acesso em: 04 jun. 2024.
APA
Boito, D. R., & Mateu, V. (2020). Precise determination of αs from relativistic quarkonium sum rules. Journal of High Energy Physics, 2020( 3), 094-1-094-35. doi:10.1007/JHEP03(2020)094
NLM
Boito DR, Mateu V. Precise determination of αs from relativistic quarkonium sum rules [Internet]. Journal of High Energy Physics. 2020 ; 2020( 3): 094-1-094-35.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1007/JHEP03(2020)094
Vancouver
Boito DR, Mateu V. Precise determination of αs from relativistic quarkonium sum rules [Internet]. Journal of High Energy Physics. 2020 ; 2020( 3): 094-1-094-35.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1007/JHEP03(2020)094
Artigo de periodico
Use of hydrogen molybdenum bronze in vacuum deposited perovskite solar cells (2020)
Zanoni, Kassio Papi da Silva ; Pérez-del-Rey, Daniel ; Dreessen, Chris; Hernández-Fenollosa, Ma Angeles; de Camargo, Andrea Simone Stucchi ; Sessolo, Michele; Boix, Pablo P. ; Bolink, Henk J.
Source: Energy Technology. Unidade: IFSC
Subjects: CÉLULAS SOLARES, BRONZE, ÍNDIO (ELEMENTO QUÍMICO), MOLIBDÊNIO
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ABNT
ZANONI, Kassio Papi da Silva et al. Use of hydrogen molybdenum bronze in vacuum deposited perovskite solar cells. Energy Technology, v. 8, n. 4, p. 1900734-1-1900734-4, 2020Tradução . . Disponível em: https://doi.org/10.1002/ente.201900734. Acesso em: 04 jun. 2024.
APA
Zanoni, K. P. da S., Pérez-del-Rey, D., Dreessen, C., Hernández-Fenollosa, M. A., de Camargo, A. S. S., Sessolo, M., et al. (2020). Use of hydrogen molybdenum bronze in vacuum deposited perovskite solar cells. Energy Technology, 8( 4), 1900734-1-1900734-4. doi:10.1002/ente.201900734
NLM
Zanoni KP da S, Pérez-del-Rey D, Dreessen C, Hernández-Fenollosa MA, de Camargo ASS, Sessolo M, Boix PP, Bolink HJ. Use of hydrogen molybdenum bronze in vacuum deposited perovskite solar cells [Internet]. Energy Technology. 2020 ; 8( 4): 1900734-1-1900734-4.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1002/ente.201900734
Vancouver
Zanoni KP da S, Pérez-del-Rey D, Dreessen C, Hernández-Fenollosa MA, de Camargo ASS, Sessolo M, Boix PP, Bolink HJ. Use of hydrogen molybdenum bronze in vacuum deposited perovskite solar cells [Internet]. Energy Technology. 2020 ; 8( 4): 1900734-1-1900734-4.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1002/ente.201900734
Artigo de periodico
Designing biocompatible and multicolor fluorescent hydroxyapatite nanoparticles for cell-imaging applications (2019)
Machado, T. R.; Leite, Ilaiáli Souza; Inada, Natalia Mayumi ; Siu Li, Máximo ; Silva, Juarez Lopes Ferreira da ; Andrés, J.; Beltrán-Mir, H.; Cordoncillo, E.; Longo, E.
Source: Materials Today Chemistry. Unidades: IFSC, IQSC
Subjects: HIDROXIAPATITA, FLUORESCÊNCIA, PRECIPITAÇÃO, NANOPARTÍCULAS
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ABNT
MACHADO, T. R. et al. Designing biocompatible and multicolor fluorescent hydroxyapatite nanoparticles for cell-imaging applications. Materials Today Chemistry, v. 14, p. 100211-1-100211-12, 2019Tradução . . Disponível em: https://doi.org/10.1016/j.mtchem.2019.100211. Acesso em: 04 jun. 2024.
APA
Machado, T. R., Leite, I. S., Inada, N. M., Siu Li, M., Silva, J. L. F. da, Andrés, J., et al. (2019). Designing biocompatible and multicolor fluorescent hydroxyapatite nanoparticles for cell-imaging applications. Materials Today Chemistry, 14, 100211-1-100211-12. doi:10.1016/j.mtchem.2019.100211
NLM
Machado TR, Leite IS, Inada NM, Siu Li M, Silva JLF da, Andrés J, Beltrán-Mir H, Cordoncillo E, Longo E. Designing biocompatible and multicolor fluorescent hydroxyapatite nanoparticles for cell-imaging applications [Internet]. Materials Today Chemistry. 2019 ; 14 100211-1-100211-12.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1016/j.mtchem.2019.100211
Vancouver
Machado TR, Leite IS, Inada NM, Siu Li M, Silva JLF da, Andrés J, Beltrán-Mir H, Cordoncillo E, Longo E. Designing biocompatible and multicolor fluorescent hydroxyapatite nanoparticles for cell-imaging applications [Internet]. Materials Today Chemistry. 2019 ; 14 100211-1-100211-12.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1016/j.mtchem.2019.100211
Artigo de periodico
Topology driven g-factor tuning in type-II quantum dots (2019)
Llorens, J. M.; Lopes-Oliveira, V.; López-Richard, V.; Oliveira, E. R. Cardozo de; Wewiór, L.; Ulloa, J. M.; Teodoro, M. D.; Marques, G. E.; García-Cristóbal, A.; Hai, Guo-Qiang; Alén, B.
Source: Physical Review Applied. Unidade: IFSC
Subjects: POÇOS QUÂNTICOS, SISTEMAS HAMILTONIANOS
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ABNT
LLORENS, J. M. et al. Topology driven g-factor tuning in type-II quantum dots. Physical Review Applied, v. 11, n. 4, p. 044011-1-044011-15, 2019Tradução . . Disponível em: https://doi.org/10.1103/PhysRevApplied.11.044011. Acesso em: 04 jun. 2024.
APA
Llorens, J. M., Lopes-Oliveira, V., López-Richard, V., Oliveira, E. R. C. de, Wewiór, L., Ulloa, J. M., et al. (2019). Topology driven g-factor tuning in type-II quantum dots. Physical Review Applied, 11( 4), 044011-1-044011-15. doi:10.1103/PhysRevApplied.11.044011
NLM
Llorens JM, Lopes-Oliveira V, López-Richard V, Oliveira ERC de, Wewiór L, Ulloa JM, Teodoro MD, Marques GE, García-Cristóbal A, Hai G-Q, Alén B. Topology driven g-factor tuning in type-II quantum dots [Internet]. Physical Review Applied. 2019 ; 11( 4): 044011-1-044011-15.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1103/PhysRevApplied.11.044011
Vancouver
Llorens JM, Lopes-Oliveira V, López-Richard V, Oliveira ERC de, Wewiór L, Ulloa JM, Teodoro MD, Marques GE, García-Cristóbal A, Hai G-Q, Alén B. Topology driven g-factor tuning in type-II quantum dots [Internet]. Physical Review Applied. 2019 ; 11( 4): 044011-1-044011-15.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1103/PhysRevApplied.11.044011
Artigo de periodico
Enhanced piezomagnetic coefficient of cobalt ferrite ceramics by Ga and Mn doping for magnetoelectric applications (2019)
Santa-Rosa, Washington; Silva Jr., Paulo Sergio da; M'Peko, Jean Claude; Amorín, Harvey; Algueró, Miguel; Venet, Michel
Source: Journal of Applied Physics. Unidade: IFSC
Subjects: CERÂMICA, ÓPTICA NÃO LINEAR, FERROELETRICIDADE
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ABNT
SANTA-ROSA, Washington et al. Enhanced piezomagnetic coefficient of cobalt ferrite ceramics by Ga and Mn doping for magnetoelectric applications. Journal of Applied Physics, v. 125, n. 7, p. 075107-1-075107-8, 2019Tradução . . Disponível em: https://doi.org/10.1063/1.5063320. Acesso em: 04 jun. 2024.
APA
Santa-Rosa, W., Silva Jr., P. S. da, M'Peko, J. C., Amorín, H., Algueró, M., & Venet, M. (2019). Enhanced piezomagnetic coefficient of cobalt ferrite ceramics by Ga and Mn doping for magnetoelectric applications. Journal of Applied Physics, 125( 7), 075107-1-075107-8. doi:10.1063/1.5063320
NLM
Santa-Rosa W, Silva Jr. PS da, M'Peko JC, Amorín H, Algueró M, Venet M. Enhanced piezomagnetic coefficient of cobalt ferrite ceramics by Ga and Mn doping for magnetoelectric applications [Internet]. Journal of Applied Physics. 2019 ; 125( 7): 075107-1-075107-8.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1063/1.5063320
Vancouver
Santa-Rosa W, Silva Jr. PS da, M'Peko JC, Amorín H, Algueró M, Venet M. Enhanced piezomagnetic coefficient of cobalt ferrite ceramics by Ga and Mn doping for magnetoelectric applications [Internet]. Journal of Applied Physics. 2019 ; 125( 7): 075107-1-075107-8.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1063/1.5063320
Artigo de periodico
The role of oxygen vacancies and their location in the magnetic properties of Ce1-xCuxO2-δ nanorods (2015)
Bernardi, Maria Inês Basso; Mesquita, A.; Béron, F.; Pirota, K. R.; Zevallos, A. O.; Doriguetto, A. C.; Carvalho, H. B.
Source: Physical Chemistry Chemical Physics. Unidade: IFSC
Subjects: NANOTECNOLOGIA, OXIGÊNIO, MAGNETISMO (PROPRIEDADES), SEMICONDUTORES
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ABNT
BERNARDI, Maria Inês Basso et al. The role of oxygen vacancies and their location in the magnetic properties of Ce1-xCuxO2-δ nanorods. Physical Chemistry Chemical Physics, v. 17, n. 5, p. 3072-3080, 2015Tradução . . Disponível em: https://doi.org/10.1039/c4cp04879b. Acesso em: 04 jun. 2024.
APA
Bernardi, M. I. B., Mesquita, A., Béron, F., Pirota, K. R., Zevallos, A. O., Doriguetto, A. C., & Carvalho, H. B. (2015). The role of oxygen vacancies and their location in the magnetic properties of Ce1-xCuxO2-δ nanorods. Physical Chemistry Chemical Physics, 17( 5), 3072-3080. doi:10.1039/c4cp04879b
NLM
Bernardi MIB, Mesquita A, Béron F, Pirota KR, Zevallos AO, Doriguetto AC, Carvalho HB. The role of oxygen vacancies and their location in the magnetic properties of Ce1-xCuxO2-δ nanorods [Internet]. Physical Chemistry Chemical Physics. 2015 ; 17( 5): 3072-3080.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1039/c4cp04879b
Vancouver
Bernardi MIB, Mesquita A, Béron F, Pirota KR, Zevallos AO, Doriguetto AC, Carvalho HB. The role of oxygen vacancies and their location in the magnetic properties of Ce1-xCuxO2-δ nanorods [Internet]. Physical Chemistry Chemical Physics. 2015 ; 17( 5): 3072-3080.[citado 2024 jun. 04 ] Available from: https://doi.org/10.1039/c4cp04879b

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