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Nanocellulose Extracted from Paraguayan Residual Agro-Industrial Biomass: Extraction Process, Physicochemical and Morphological Characterization

Author

Listed:
  • Maria Edelira Velázquez

    (Facultad de Comunicación, Arte y Ciencias de la Tecnología, Universidad Americana, Asunción 1206, Paraguay)

  • Omayra Beatriz Ferreiro

    (Facultad de Comunicación, Arte y Ciencias de la Tecnología, Universidad Americana, Asunción 1206, Paraguay
    Facultad de Ciencias Químicas, Universidad Nacional de Asunción, San Lorenzo 111421, Paraguay)

  • Diego Batista Menezes

    (Laboratorio Nacional de Nanotecnología LANOTEC, CENAT, Pavas, San José 10109, Costa Rica)

  • Yendry Corrales-Ureña

    (Laboratorio Nacional de Nanotecnología LANOTEC, CENAT, Pavas, San José 10109, Costa Rica
    Faculty of Production Engineering, University of Bremen, Am Fallturm 1, 28359 Bremen, Germany)

  • José Roberto Vega-Baudrit

    (Laboratorio Nacional de Nanotecnología LANOTEC, CENAT, Pavas, San José 10109, Costa Rica
    Laboratorio de Polímeros, Escuela de Química, Universidad Nacional, Heredia 40104, Costa Rica)

  • Juan Daniel Rivaldi

    (Facultad de Ciencias Químicas, Universidad Nacional de Asunción, San Lorenzo 111421, Paraguay)

Abstract

Residual biomasses from agro-industries in Paraguay, including soybean hulls (SBHs) and sugarcane bagasse (SCB), were studied as a source for nanocellulose extraction for the first time. For that purpose, both biomasses were delignified in a semi-pilot stainless-steel reactor, and the cellulose pulp was subjected to a bleaching process with NaClO (2.5%, w / v ). The nanocellulose (CNC) was obtained after two-step acid hydrolysis. Firstly, the bleached cellulose was hydrolyzed with HCl (17%, w / w ) for two hours at 60 °C to obtain microcrystals by removing most of the amorphous fraction. The celluloses were then treated with H 2 SO 4 (65%, w / w ) at 45 °C for 45 min to obtain nanocellulose. Physicochemical and morphological properties were analyzed using attenuated total reflectance Fourier transform infrared spectroscopy (ATR-FTIR), thermogravimetric analysis (TGA), scanning electron microscopy (SEM), atomic force microscopy (AFM), and X-ray diffraction analysis (XRD). The SBHs nanocellulose had a whisker-like form with a 230 ± 42 nm diameter and a 12 ± 2 nm height, and the SCB nanocellulose had a fibril-like form with a 103 ± 30 nm diameter and a height of 6 ± 3 nm. The nanocellulose from SBHs and SCB had good thermal stability as its degradation temperature started at 250 °C. Furthermore, the nanocellulose obtained was negatively charged and formed stable dispersion in water at 0.1 mg/mL concentration and a pH of around 6.5.

Suggested Citation

  • Maria Edelira Velázquez & Omayra Beatriz Ferreiro & Diego Batista Menezes & Yendry Corrales-Ureña & José Roberto Vega-Baudrit & Juan Daniel Rivaldi, 2022. "Nanocellulose Extracted from Paraguayan Residual Agro-Industrial Biomass: Extraction Process, Physicochemical and Morphological Characterization," Sustainability, MDPI, vol. 14(18), pages 1-15, September.
    • Handle: RePEc:gam:jsusta:v:14:y:2022:i:18:p:11386-:d:911953
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    References listed on IDEAS

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    1. Krishnavani Pavalaydon & Hareenanden Ramasawmy & Dinesh Surroop, 2022. "Comparative evaluation of cellulose nanocrystals from bagasse and coir agro-wastes for reinforcing PVA-based composites," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 24(8), pages 9963-9984, August.
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    Cited by:

    1. Mohammed Jalalah & Zubair Khaliq & Zulfiqar Ali & Adnan Ahmad & Muhammad Bilal Qadir & Ali Afzal & Umer Ashraf & M. Faisal & Mabkhoot Alsaiari & Muhammad Irfan & Saeed A. Alsareii & Farid A. Harraz, 2022. "Preliminary Studies on Conversion of Sugarcane Bagasse into Sustainable Fibers for Apparel Textiles," Sustainability, MDPI, vol. 14(24), pages 1-11, December.

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