Functional Properties of Kenaf Bast Fibre Anhydride Modification Enhancement with Bionanocarbon in Polymer Nanobiocomposites

Rizal, Samsul; Khalil, H. P. S. Abdul; Mistar, Eka Marya; Olaiya, N. G.; Muksin, Umar; Marwan, Marwan; Suriani, A. B.; Abdullah, C. K.; Alfatah, Tata

doi:10.3390/polym13234211

Cited by 4 publications

(3 citation statements)

References 61 publications

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“…As seen in the figure, the peaks and corresponding functional groups displayed the qualitative data through the infrared spectra on the presence of the ULNP and PLNP with transmittance (%) against the spectra of absorption bands (cm −1 ). The wide region peaks of 3200–3600 cm −1 represented the OH (hydroxyl) groups stretching vibration in aromatic and aliphatic structures, which involved hydrogen bonding interaction 36 . Hydrogen bonding, a non‐covalent interaction, is important in the functional properties of biopolymers.…”

Section: Resultsmentioning

confidence: 99%

“…The wide region peaks of 3200-3600 cm À1 represented the O H (hydroxyl) groups stretching vibration in aromatic and aliphatic structures, which involved hydrogen bonding interaction. 36 Hydrogen bonding, a non-covalent interaction, is important in the functional properties of biopolymers. The O H groups in phenolic and alcoholic compounds contribute to forming a variety of inter-and intra-molecular hydrogen bonds.…”

Section: Functional Group Analysismentioning

confidence: 99%

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Hydrophobicity and mechanical properties of purified lignin nanoparticles reinforced marine‐derived biopolymer composites

Alfatah,

Surya,

H.P.S.

et al. 2024

Polymer Composites

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Lignin has been considered the main aromatic renewable biopolymer. Besides its availability in large quantities as a major and low‐cost side product of several industries as a polysaccharide component of lignocellulosic biomass for industrial applications, it remains underutilized and as such, lignin valorization is highly desirable. This study was focused on the fabrication, purification, and characterization of lignin nanoparticles (LNPs) from black liquor of oil palm (Elaeis guineensis) empty fruit bunch (EFB). The functional properties of the LNPs investigated include the morphology, particle size, zeta potential distribution, elemental composition, functional groups, and gas chromatography–mass spectrometry (GC–MS). The purified LNPs provided smaller particle sizes ranging from 32 to 62 nm while the unpurified sample sizes range between 53 and 88 nm. The zeta potential value of purified LNPs displays relatively good stability to the unpurified LNPs despite the consistency in their particle size spreading as observed from the TEM micrograph. The results of the GC–MS analysis signify that the purification procedure affects the compounds in the LNPs. The kappa‐carrageenan (KC) biopolymers reinforced with purified LNPs provided more organized surfaces than the biopolymers reinforced with unpurified LNPs, leading to enhanced hydrophobicity and mechanical properties of the bionanocomposites. This study shows the potential applications of valorized lignin from oil palm residue as a reinforcement agent in renewable packaging.Highlights Lignin nanoparticles (LNPs) were yielded from empty fruit bunch black liquor. Syringyl to guaiacyl ratio of LNPs was increased from 0.83 to 1.26. Biopolymers were prepared by incorporating LNPs into the kappa‐carrageenan. Biopolymer with 4% purified LNPs had an optimum contact angle of 106.83°. The optimized biopolymer showed an optimum tensile strength of 38.42 MPa.

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Section: Resultsmentioning

confidence: 99%

Section: Functional Group Analysismentioning

confidence: 99%

Hydrophobicity and mechanical properties of purified lignin nanoparticles reinforced marine‐derived biopolymer composites

Alfatah,

Surya,

H.P.S.

et al. 2024

Polymer Composites

Self Cite

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“…In a study by Niu et al, maleic acid‐grafted polypropylene matrix vastly increases the tensile and thermal properties of hemp fiber‐reinforced composite 133 . Rizal et al 134 investigated the functional properties of kenaf bast fiber which was modified with bio‐nanocarbon within the polymer composite with propionic and succinic anhydrides to enhance the functional properties of vinyl ester composites. The fiber–matrix interface was prepared with the resin transfer molding process.…”

Section: Recent Approaches For Performance Enhancementmentioning

confidence: 99%

Unveiling new frontiers: Bast fiber‐reinforced polymer composites and their mechanical properties

Syduzzaman,

Hassan,

Anik

et al. 2023

Polymer Composites

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Bast fibers such as flax, hemp, and jute‐reinforced polymer composites due to their exceptional properties are gaining significant demand as a sustainable and cost‐effective alternative to conventional synthetic fiber‐reinforced composites. This comprehensive study aims to shed light on the potential of bast fiber reinforced composites (BFRCs) as innovative materials for various industrial applications. The manuscript presents a comprehensive discussion on bast fibers, polymer matrices, and the fabrication techniques employed to produce BFPCs, highlighting the effects of different modification techniques on the resulting mechanical properties. Industrial and structural applications of BFPCs are explored, with a specific focus on their use in the automotive and aerospace industries, construction materials, and sporting goods. Finally, the manuscript concludes with a discussion of the challenges and future prospects of BFPCs. This manuscript can serve as a valuable resource for researchers, engineers, and professionals interested in the emerging field of bast fiber‐reinforced polymer composites. It opens new frontiers in material design and highlights the enormous potential of BFPCs to revolutionize industrial applications through their exceptional mechanical properties.Highlights Materials and processing of fiber‐reinforced polymer nanocomposites. Exploration of various fiber and matrix modification techniques. Recent advances in the mechanical properties of bast fiber‐reinforced composites. Ashby charts to illustrate the comparative analysis.

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Influence of Silica Nanoparticles on Mechanical Properties of Bast Fibers Made Epoxy Composite via Injection Moulding Route

De Poures,

Shariff,

Chakravarthy

et al. 2024

J. Inst. Eng. India Ser. D

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Functional Properties of Kenaf Bast Fibre Anhydride Modification Enhancement with Bionanocarbon in Polymer Nanobiocomposites

Cited by 4 publications

References 61 publications

Hydrophobicity and mechanical properties of purified lignin nanoparticles reinforced marine‐derived biopolymer composites

Hydrophobicity and mechanical properties of purified lignin nanoparticles reinforced marine‐derived biopolymer composites

Unveiling new frontiers: Bast fiber‐reinforced polymer composites and their mechanical properties

Influence of Silica Nanoparticles on Mechanical Properties of Bast Fibers Made Epoxy Composite via Injection Moulding Route

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