Sustainable, bio-based conductive materials from peanut waste for flexible electronics and tunable piezoresistive strain sensors
Yazarlar (4)
Doç. Dr. Ozan TOPRAKÇI
Yalova Üniversitesi, Türkiye
Doç. Dr. Hatice Aylin KARAHAN TOPRAKÇI
Yalova Üniversitesi, Türkiye
| Makale Türü | Özgün Makale (SSCI, AHCI, SCI, SCI-Exp dergilerinde yayınlanan tam makale) | ||
| Dergi Adı | Materials Science and Engineering: B (Q2) | ||
| Dergi ISSN | 0921-5107 Wos Dergi Scopus Dergi | ||
| Dergi Tarandığı Indeksler | SCI-Expanded | ||
| Makale Dili | İngilizce | Basım Tarihi | 01-2023 |
| Cilt / Sayı / Sayfa | 287 / 0 / 116140–0 | DOI | 10.1016/j.mseb.2022.116140 |
| Makale Linki | http://dx.doi.org/10.1016/j.mseb.2022.116140 | ||
| Özet |
| Sustainable engineering applications are of great significance in materials science because of limited natural resources. This study presents a sustainable, bio-based approach for the fabrication of flexible electronics and sensors by using peanut shell and skin as the precursors for conductive carbon-based fillers. Carbonized samples showed differences in terms of morphological, structural, and electrical properties. While peanut shell-based carbon showed higher crystallinity and morphology with multiple channels; peanut skin-based carbon showed stacked, layered morphology with smaller particle size. Elastic modulus of the samples increased, tensile strength, and tensile strain values were decreased for both composite sets. The electrical conductivity of the samples prepared by carbon from peanut shell showed lower percolation concentration. Both composites showed piezoresistive response under cycling … |
| Anahtar Kelimeler |
| Sustainable electronics | Biochar | Carbonized peanut shell | Carbonized peanut skin | Piezoresistive strain sensor | Human motion monitoring |
BM Sürdürülebilir Kalkınma Amaçları
| Atıf Sayıları | |
| WoS | 10 |
| Google Scholar | 12 |