Sustainable Manufacturing of Lightweight Hybrid Nanocomposites for Electric Vehicle Battery Enclosures DOI Open Access
Umar Farooq, Valentina Bertana, Giulia Mossotti

et al.

Polymers, Journal Year: 2025, Volume and Issue: 17(8), P. 1056 - 1056

Published: April 14, 2025

Nanocomposite laminates containing carbon fibers, epoxy, and multiwalled nanotubes were fabricated using a vacuum bag process. Ecofriendly ionic liquid (5 wt%)-treated (pristine nickel-coated) added to the epoxy independently, in amounts ranging from 1 wt% 3 wt%, order tailor mechanical, electrical, thermal performance of manufactured fiber composite laminates. These nanocomposite later characterized through flexural testing, dynamic mechanical analysis, impedance spectroscopy, conductivity tests, FTIR spectroscopy evaluate their suitability for battery pack applications. The findings showed that both types exhibited multifaceted effects on properties bulk hybrid For instance, strength composites 3.0 liquid-treated pristine reached 802.8 MPa, modulus was 88.21 GPa, storage 18.2 while loss peaked at 1.76 GPa. ranged 0.38869 W/(m · K) 0.69772 K), electrical resistance decreased significantly with addition MWCNTs, reaching minimum 29.89 Ω CFRPIP-1.5 wt%. structural nanocomposites higher than Ni-coated nanotubes, although latter found possess better functional performance.

Language: Английский

Cellulose Nanomaterials: Characterization Methods, Isolation Techniques, and Strategies DOI Creative Commons
Bogdan-Marian Tofanica, А. М. Михаилиди, Maria E. Fortună

et al.

Crystals, Journal Year: 2025, Volume and Issue: 15(4), P. 352 - 352

Published: April 9, 2025

Nanocellulose, including cellulose nanofibers (CNFs), nanocrystals (CNCs), and bacterial nanocellulose (BNC), represents a promising class of bio-based nanomaterials derived from natural sources. These materials, plant-based cellulose, are characterized by exceptional mechanical strength, high surface area, biodegradability, the ability to form stable nanoparticle networks, making them suitable for use in composites, biomedicine, electronics, many other fields. In this review, we present latest advancements production nanocellulose, preparation technologies methods chemical physical modifications enhance performance these materials. We also discuss various applications, such as its nanocomposites, sustainable packaging flexible electronic devices, support biological media. Additionally, challenges opportunities related scalability their integration into industries with growing economic ecological demands explored. The review provides comprehensive overview potential highlighting importance context emerging sustainability.

Language: Английский

Citations

0
Review on the synergistic mechanisms in harnessing rice residue-derived cellulose nanocrystals for sustainable water purification and wastewater treatment DOI
Bhupinder Singh, Ravinder Kumar, Shubham Sharma

et al.

International Journal of Biological Macromolecules, Journal Year: 2025, Volume and Issue: unknown, P. 143225 - 143225

Published: April 1, 2025

Language: Английский

Citations

0
Sustainable Manufacturing of Lightweight Hybrid Nanocomposites for Electric Vehicle Battery Enclosures DOI Open Access
Umar Farooq, Valentina Bertana, Giulia Mossotti

et al.

Polymers, Journal Year: 2025, Volume and Issue: 17(8), P. 1056 - 1056

Published: April 14, 2025

Nanocomposite laminates containing carbon fibers, epoxy, and multiwalled nanotubes were fabricated using a vacuum bag process. Ecofriendly ionic liquid (5 wt%)-treated (pristine nickel-coated) added to the epoxy independently, in amounts ranging from 1 wt% 3 wt%, order tailor mechanical, electrical, thermal performance of manufactured fiber composite laminates. These nanocomposite later characterized through flexural testing, dynamic mechanical analysis, impedance spectroscopy, conductivity tests, FTIR spectroscopy evaluate their suitability for battery pack applications. The findings showed that both types exhibited multifaceted effects on properties bulk hybrid For instance, strength composites 3.0 liquid-treated pristine reached 802.8 MPa, modulus was 88.21 GPa, storage 18.2 while loss peaked at 1.76 GPa. ranged 0.38869 W/(m · K) 0.69772 K), electrical resistance decreased significantly with addition MWCNTs, reaching minimum 29.89 Ω CFRPIP-1.5 wt%. structural nanocomposites higher than Ni-coated nanotubes, although latter found possess better functional performance.

Language: Английский

Citations

0