Influence of gelatin type on physicochemical properties of electrospun nanofibers

Bruna Silva de Farias; Francisca Zuchoski Rizzi; Eduardo Silveira Ribeiro; Patrícia Silva Diaz; Tito Roberto Sant’Anna Cadaval Junior; Guilherme Luiz Dotto; Mohammad Rizwan Khan; Salim Manoharadas; Luiz Antonio de Almeida Pinto; Glaydson Simões dos Reis

doi:10.1038/s41598-023-42472-9

Influence of gelatin type on physicochemical properties of electrospun nanofibers

Bruna Silva de Farias, Francisca Zuchoski Rizzi, Eduardo Silveira Ribeiro, Patrícia Silva Diaz, Tito Roberto Sant’Anna Cadaval Junior, Guilherme Luiz Dotto, Mohammad Rizwan Khan, Salim Manoharadas, Luiz Antonio de Almeida Pinto, Glaydson Simões dos Reis^*

^*Korresponderande författare för detta arbete

Teknisk kemi och reaktionsteknik

Forskningsoutput: Tidskriftsbidrag › Artikel › Vetenskaplig › Peer review

15 Citeringar (Scopus)

Sammanfattning

This study explores the fabrication of nanofibers using different types of gelatins, including bovine, porcine, and fish gelatins. The gelatins exhibited distinct molecular weights and apparent viscosity values, leading to different entanglement behavior and nanofiber production. The electrospinning technique produced nanofibers with diameters from 47 to 274 nm. The electrospinning process induced conformational changes, reducing the overall crystallinity of the gelatin samples. However, porcine gelatin nanofibers exhibited enhanced molecular ordering. These findings highlight the potential of different gelatin types to produce nanofibers with distinct physicochemical properties. Overall, this study sheds light on the relationship between gelatin properties, electrospinning process conditions, and the resulting nanofiber characteristics, providing insights for tailored applications in various fields.

Originalspråk	Engelska
Artikelnummer	15195
Tidskrift	Scientific Reports
Volym	13
Nummer	1
DOI	https://doi.org/10.1038/s41598-023-42472-9 https://doi.org/10.1038/s41598-023-42472-9
Status	Publicerad - dec. 2023
MoE-publikationstyp	A1 Tidskriftsartikel-refererad

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de Farias, B. S., Rizzi, F. Z., Ribeiro, E. S., Diaz, P. S., Sant’Anna Cadaval Junior, T. R., Dotto, G. L., Khan, M. R., Manoharadas, S., de Almeida Pinto, L. A., & dos Reis, G. S. (2023). Influence of gelatin type on physicochemical properties of electrospun nanofibers. Scientific Reports, 13(1), Artikel 15195. https://doi.org/10.1038/s41598-023-42472-9, https://doi.org/10.1038/s41598-023-42472-9

@article{fa0b716cb2c04cf29dd0e51766a34bbb,

title = "Influence of gelatin type on physicochemical properties of electrospun nanofibers",

abstract = "This study explores the fabrication of nanofibers using different types of gelatins, including bovine, porcine, and fish gelatins. The gelatins exhibited distinct molecular weights and apparent viscosity values, leading to different entanglement behavior and nanofiber production. The electrospinning technique produced nanofibers with diameters from 47 to 274 nm. The electrospinning process induced conformational changes, reducing the overall crystallinity of the gelatin samples. However, porcine gelatin nanofibers exhibited enhanced molecular ordering. These findings highlight the potential of different gelatin types to produce nanofibers with distinct physicochemical properties. Overall, this study sheds light on the relationship between gelatin properties, electrospinning process conditions, and the resulting nanofiber characteristics, providing insights for tailored applications in various fields.",

author = "\{de Farias\}, \{Bruna Silva\} and Rizzi, \{Francisca Zuchoski\} and Ribeiro, \{Eduardo Silveira\} and Diaz, \{Patr{\'i}cia Silva\} and \{Sant{\textquoteright}Anna Cadaval Junior\}, \{Tito Roberto\} and Dotto, \{Guilherme Luiz\} and Khan, \{Mohammad Rizwan\} and Salim Manoharadas and \{de Almeida Pinto\}, \{Luiz Antonio\} and \{dos Reis\}, \{Glaydson Sim{\~o}es\}",

note = "Publisher Copyright: {\textcopyright} 2023, Springer Nature Limited.",

year = "2023",

month = dec,

doi = "10.1038/s41598-023-42472-9",

language = "English",

volume = "13",

journal = "Scientific Reports",

issn = "2045-2322",

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de Farias, BS, Rizzi, FZ, Ribeiro, ES, Diaz, PS, Sant’Anna Cadaval Junior, TR, Dotto, GL, Khan, MR, Manoharadas, S, de Almeida Pinto, LA & dos Reis, GS 2023, 'Influence of gelatin type on physicochemical properties of electrospun nanofibers', Scientific Reports, vol. 13, nr. 1, 15195. https://doi.org/10.1038/s41598-023-42472-9, https://doi.org/10.1038/s41598-023-42472-9

TY - JOUR

T1 - Influence of gelatin type on physicochemical properties of electrospun nanofibers

AU - de Farias, Bruna Silva

AU - Rizzi, Francisca Zuchoski

AU - Ribeiro, Eduardo Silveira

AU - Diaz, Patrícia Silva

AU - Sant’Anna Cadaval Junior, Tito Roberto

AU - Dotto, Guilherme Luiz

AU - Khan, Mohammad Rizwan

AU - Manoharadas, Salim

AU - de Almeida Pinto, Luiz Antonio

AU - dos Reis, Glaydson Simões

PY - 2023/12

Y1 - 2023/12

N2 - This study explores the fabrication of nanofibers using different types of gelatins, including bovine, porcine, and fish gelatins. The gelatins exhibited distinct molecular weights and apparent viscosity values, leading to different entanglement behavior and nanofiber production. The electrospinning technique produced nanofibers with diameters from 47 to 274 nm. The electrospinning process induced conformational changes, reducing the overall crystallinity of the gelatin samples. However, porcine gelatin nanofibers exhibited enhanced molecular ordering. These findings highlight the potential of different gelatin types to produce nanofibers with distinct physicochemical properties. Overall, this study sheds light on the relationship between gelatin properties, electrospinning process conditions, and the resulting nanofiber characteristics, providing insights for tailored applications in various fields.

AB - This study explores the fabrication of nanofibers using different types of gelatins, including bovine, porcine, and fish gelatins. The gelatins exhibited distinct molecular weights and apparent viscosity values, leading to different entanglement behavior and nanofiber production. The electrospinning technique produced nanofibers with diameters from 47 to 274 nm. The electrospinning process induced conformational changes, reducing the overall crystallinity of the gelatin samples. However, porcine gelatin nanofibers exhibited enhanced molecular ordering. These findings highlight the potential of different gelatin types to produce nanofibers with distinct physicochemical properties. Overall, this study sheds light on the relationship between gelatin properties, electrospinning process conditions, and the resulting nanofiber characteristics, providing insights for tailored applications in various fields.

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Influence of gelatin type on physicochemical properties of electrospun nanofibers

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