Chemical and Mechanical Properties of Films Made of Cellulose Nanoplatelets and Cellulose Fibers Obtained from Banana Pseudostem

Biopolymers arise as a good substitute for synthetic polymers, regardless of the energy demand and the complex processes required to isolate such biopolymers. Cellulose is an organic polymer that can be found in all terrestrial plants and is the most abundant organic biomolecule on the Earth. Howeve...

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Published in	Waste and biomass valorization Vol. 12; no. 10; pp. 5715 - 5723
Main Authors	Flores-Jerónimo, G., Silva-Mendoza, J., Morales-San Claudio, P. C., Toxqui-Terán, A., Aguilar-Martínez, J. A., Chávez-Guerrero, L.
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 2021 Springer Nature B.V
Subjects	Biodegradability Biodegradation Biomolecules Biopolymers Cellulose Cellulose fibers Energy demand Engineering Environment Environmental conditions Environmental Engineering/Biotechnology Fibers Hydrolysis Industrial Pollution Prevention Mechanical properties Microscopy Original Paper Polymers Renewable and Green Energy Scanning electron microscopy Spectroscopy Waste Management/Waste Technology X ray reflection X-ray diffraction Thin films Two-dimensional nanocellulose Microcrystalline cellulose Biopolymers Transparent films
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Abstract	Biopolymers arise as a good substitute for synthetic polymers, regardless of the energy demand and the complex processes required to isolate such biopolymers. Cellulose is an organic polymer that can be found in all terrestrial plants and is the most abundant organic biomolecule on the Earth. However, the mechanical properties of most biopolymers are not as good as the ones of synthetic polymers under environmental conditions, because they are highly hydrophilic. In this work, we aimed to extract cellulose nanoplatelets (CNP) and cellulose fibers (CF) from the banana pseudostem through one step of alkalinization followed by acid hydrolysis, to obtain a self-standing transparent film. The obtained all-cellulose material (CF/CNP) was characterized by Optic Microscopy, Scanning Electron Microscopy, Attenuates Total Reflection Spectroscopy, X-Ray diffraction. Also, CF/CNP films were made in order to test their tensile and strength properties, along with the simulated biodegradability using enzymatic hydrolysis. Graphic Abstract
AbstractList	Biopolymers arise as a good substitute for synthetic polymers, regardless of the energy demand and the complex processes required to isolate such biopolymers. Cellulose is an organic polymer that can be found in all terrestrial plants and is the most abundant organic biomolecule on the Earth. However, the mechanical properties of most biopolymers are not as good as the ones of synthetic polymers under environmental conditions, because they are highly hydrophilic. In this work, we aimed to extract cellulose nanoplatelets (CNP) and cellulose fibers (CF) from the banana pseudostem through one step of alkalinization followed by acid hydrolysis, to obtain a self-standing transparent film. The obtained all-cellulose material (CF/CNP) was characterized by Optic Microscopy, Scanning Electron Microscopy, Attenuates Total Reflection Spectroscopy, X-Ray diffraction. Also, CF/CNP films were made in order to test their tensile and strength properties, along with the simulated biodegradability using enzymatic hydrolysis.Graphic Abstract Biopolymers arise as a good substitute for synthetic polymers, regardless of the energy demand and the complex processes required to isolate such biopolymers. Cellulose is an organic polymer that can be found in all terrestrial plants and is the most abundant organic biomolecule on the Earth. However, the mechanical properties of most biopolymers are not as good as the ones of synthetic polymers under environmental conditions, because they are highly hydrophilic. In this work, we aimed to extract cellulose nanoplatelets (CNP) and cellulose fibers (CF) from the banana pseudostem through one step of alkalinization followed by acid hydrolysis, to obtain a self-standing transparent film. The obtained all-cellulose material (CF/CNP) was characterized by Optic Microscopy, Scanning Electron Microscopy, Attenuates Total Reflection Spectroscopy, X-Ray diffraction. Also, CF/CNP films were made in order to test their tensile and strength properties, along with the simulated biodegradability using enzymatic hydrolysis. Graphic Abstract
Author	Morales-San Claudio, P. C. Toxqui-Terán, A. Aguilar-Martínez, J. A. Silva-Mendoza, J. Flores-Jerónimo, G. Chávez-Guerrero, L.
Author_xml	– sequence: 1 givenname: G. surname: Flores-Jerónimo fullname: Flores-Jerónimo, G. organization: Facultad de Ingeniería Mecánica y Eléctrica, Universidad Autónoma de Nuevo León – sequence: 2 givenname: J. surname: Silva-Mendoza fullname: Silva-Mendoza, J. organization: Facultad de Ciencias Químicas, Universidad Autónoma de Nuevo León – sequence: 3 givenname: P. C. surname: Morales-San Claudio fullname: Morales-San Claudio, P. C. organization: Facultad de Ciencias Químicas, Universidad Autónoma de Nuevo León – sequence: 4 givenname: A. surname: Toxqui-Terán fullname: Toxqui-Terán, A. organization: Centro de Investigación en, Materiales Avanzados S. C. (CIMAV—Unidad Monterrey) – sequence: 5 givenname: J. A. surname: Aguilar-Martínez fullname: Aguilar-Martínez, J. A. organization: Facultad de Ingeniería Mecánica y Eléctrica, Universidad Autónoma de Nuevo León – sequence: 6 givenname: L. orcidid: 0000-0002-6186-2240 surname: Chávez-Guerrero fullname: Chávez-Guerrero, L. email: leonardo.chavezgr@uanl.edu.mx organization: Facultad de Ingeniería Mecánica y Eléctrica, Universidad Autónoma de Nuevo León, Centro de Innovación, Investigación y Desarrollo en Ingeniería, Universidad Autónoma de Nuevo León UANL
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Snippet	Biopolymers arise as a good substitute for synthetic polymers, regardless of the energy demand and the complex processes required to isolate such biopolymers....
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SubjectTerms	Biodegradability Biodegradation Biomolecules Biopolymers Cellulose Cellulose fibers Energy demand Engineering Environment Environmental conditions Environmental Engineering/Biotechnology Fibers Hydrolysis Industrial Pollution Prevention Mechanical properties Microscopy Original Paper Polymers Renewable and Green Energy Scanning electron microscopy Spectroscopy Waste Management/Waste Technology X ray reflection X-ray diffraction
Title	Chemical and Mechanical Properties of Films Made of Cellulose Nanoplatelets and Cellulose Fibers Obtained from Banana Pseudostem
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