Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles
Far infrared radiation (FIR) within the wavelength range of 4-14 μm can offer human health benefits, such as improving blood flow. Therefore, additives that emit far infrared radiation have the potential to be incorporated into polymer/fabric matrices to develop textiles that could promote health. I...
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sg-ntu-dr.10356-1821622025-01-13T02:38:49Z Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles Low, Rayland Jun Yan He, Pengfei Junianto Qiu, Ningyu Ong, Amanda Jiamin Choo, Hong Han Manik, Yosia Gopas Oetama Siburian, Rikson Goei, Ronn Burns, Stephen F. Tok, Alfred Iing Yoong Lipik, Vitali Chang, Boon Peng School of Materials Science and Engineering National Institute of Education Engineering Far infrared radiation Polymer-matrix composites Far infrared radiation (FIR) within the wavelength range of 4-14 μm can offer human health benefits, such as improving blood flow. Therefore, additives that emit far infrared radiation have the potential to be incorporated into polymer/fabric matrices to develop textiles that could promote health. In this study, biochar derived from candlenuts and pyrolyzed with activated carbon (AC) was incorporated into polypropylene (PP) films and investigated for its potential as a health-promoting textile additive. The properties of biochar were compared with other far infrared (FIR) emitting additives such as hematite, Indian red ochre, and graphene. The addition of biochar increased FIR emissivity to 0.90, which is 9% higher than that of pristine PP. Additionally, biochar enhanced UV and near-infrared (NIR) blocking capabilities, achieving an ultra-protection factor (UPF) of 91.41 and NIR shielding of 95.85%. Incorporating 2 wt% biochar resulted in a 3.3-fold higher temperature increase compared to pristine PP after 30 s of exposure to an FIR source, demonstrating improved heat retention. Furthermore, the ability to achieve the lowest thermal effusivity among other additives supports the potential use of biochar-incorporated fabric as a warming material in cold climates. The tensile properties of PP films with biochar were superior to those with other additives, potentially contributing to a longer product lifespan. Additionally, samples with red ochre exhibited the highest FIR emissivity, while samples with hematite showed the highest capacity for UV shielding. Ministry of Education (MOE) Published version This research was supported by the Ministry of Education (MOE), Singapore, Tier 1 research grant, RT06/21. 2025-01-13T02:38:49Z 2025-01-13T02:38:49Z 2024 Journal Article Low, R. J. Y., He, P., Junianto, Qiu, N., Ong, A. J., Choo, H. H., Manik, Y. G. O., Siburian, R., Goei, R., Burns, S. F., Tok, A. I. Y., Lipik, V. & Chang, B. P. (2024). Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles. Molecules, 29(20), 4798-. https://dx.doi.org/10.3390/molecules29204798 1420-3049 https://hdl.handle.net/10356/182162 10.3390/molecules29204798 39459168 2-s2.0-85207688289 20 29 4798 en RT06/21 Molecules © 2024 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering Far infrared radiation Polymer-matrix composites |
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Engineering Far infrared radiation Polymer-matrix composites Low, Rayland Jun Yan He, Pengfei Junianto Qiu, Ningyu Ong, Amanda Jiamin Choo, Hong Han Manik, Yosia Gopas Oetama Siburian, Rikson Goei, Ronn Burns, Stephen F. Tok, Alfred Iing Yoong Lipik, Vitali Chang, Boon Peng Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles |
| description |
Far infrared radiation (FIR) within the wavelength range of 4-14 μm can offer human health benefits, such as improving blood flow. Therefore, additives that emit far infrared radiation have the potential to be incorporated into polymer/fabric matrices to develop textiles that could promote health. In this study, biochar derived from candlenuts and pyrolyzed with activated carbon (AC) was incorporated into polypropylene (PP) films and investigated for its potential as a health-promoting textile additive. The properties of biochar were compared with other far infrared (FIR) emitting additives such as hematite, Indian red ochre, and graphene. The addition of biochar increased FIR emissivity to 0.90, which is 9% higher than that of pristine PP. Additionally, biochar enhanced UV and near-infrared (NIR) blocking capabilities, achieving an ultra-protection factor (UPF) of 91.41 and NIR shielding of 95.85%. Incorporating 2 wt% biochar resulted in a 3.3-fold higher temperature increase compared to pristine PP after 30 s of exposure to an FIR source, demonstrating improved heat retention. Furthermore, the ability to achieve the lowest thermal effusivity among other additives supports the potential use of biochar-incorporated fabric as a warming material in cold climates. The tensile properties of PP films with biochar were superior to those with other additives, potentially contributing to a longer product lifespan. Additionally, samples with red ochre exhibited the highest FIR emissivity, while samples with hematite showed the highest capacity for UV shielding. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Low, Rayland Jun Yan He, Pengfei Junianto Qiu, Ningyu Ong, Amanda Jiamin Choo, Hong Han Manik, Yosia Gopas Oetama Siburian, Rikson Goei, Ronn Burns, Stephen F. Tok, Alfred Iing Yoong Lipik, Vitali Chang, Boon Peng |
| format |
Article |
| author |
Low, Rayland Jun Yan He, Pengfei Junianto Qiu, Ningyu Ong, Amanda Jiamin Choo, Hong Han Manik, Yosia Gopas Oetama Siburian, Rikson Goei, Ronn Burns, Stephen F. Tok, Alfred Iing Yoong Lipik, Vitali Chang, Boon Peng |
| author_sort |
Low, Rayland Jun Yan |
| title |
Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles |
| title_short |
Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles |
| title_full |
Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles |
| title_fullStr |
Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles |
| title_full_unstemmed |
Investigation of far infrared emission and UV protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles |
| title_sort |
investigation of far infrared emission and uv protection properties of polypropylene composites embedded with candlenut-derived biochar for health textiles |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182162 |
| _version_ |
1821237213571055616 |