用于军事应用的、在棉布中使用纳米石墨氮化碳/聚乙烯醇的智能服装。

Smart apparel using nano graphitic carbon nitride/PVA in a cotton cloth for military application.

作者信息

Krishnaswamy Srimathi, Panigrahi Puspamitra, Prabhakaran Kala Praseetha, Sofini Sharon, Nagarajan Ganapathi Subramanian

机构信息

Centre for Clean Energy and Nano Convergence (CENCON), Hindustan Institute of Technology and Science (HITS), Padur, Kelambakkam, Chennai 603103, India.

Noorul Islam College of Engineering, Noorul Islam Centre for Higher Education, Kumaracoil, Kalkulam, Thucklay, Tamil Nadu 629180, India.

出版信息

Heliyon. 2022 Aug 18;8(8):e10345. doi: 10.1016/j.heliyon.2022.e10345. eCollection 2022 Aug.

DOI:10.1016/j.heliyon.2022.e10345

PMID:36082337

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9445280/

Abstract

An eco-friendly, low-cost smart attire was made of metal-free graphitic carbon nitride (GCN) as a semiconductor material in a biodegradable synthetic polymer (polyvinyl alcohol) and cotton material. Various concentrations such as 0.04, 0.08, 0.12, 0.16, and 0.2 weight percentage of GCN is entrenched in PVA. UV absorption spectra displayed two peaks, one matching PVA (317 nm) and the other excitonic peak of GCN (390 nm).0.2% GCN in PVA showed a low bandgap (2.84 eV) harnessing maximum solar light. Due to the charge transfer mechanism, enhanced blue emission at 450 nm was observed for the higher concentration of graphitic carbon nitride. Due to more defect centers of higher weight percentage of GCN, higher electrical conductivity (7.6462 × 10 S/cm) and optical conductivity (0.113 S) were noticed. Due to the higher conductivity of 5GCN, it was embedded with cotton fabric. The fabricated smart apparel can be used to manufacture flexible, lightweight, eco-friendly optoelectronic devices. Further, according to literature, GCN possesses high antibacterial activity, hence it can serve as clothing for the military and medical community.

摘要

一种环保、低成本的智能服装由无金属的石墨氮化碳（GCN）制成，GCN作为半导体材料存在于可生物降解的合成聚合物（聚乙烯醇）和棉质材料中。不同浓度（如0.04、0.08、0.12、0.16和0.2重量百分比）的GCN被固定在聚乙烯醇中。紫外吸收光谱显示出两个峰，一个与聚乙烯醇匹配（317纳米），另一个是GCN的激子峰（390纳米）。聚乙烯醇中0.2%的GCN显示出低带隙（2.84电子伏特），能够利用最大量的太阳光。由于电荷转移机制，对于较高浓度的石墨氮化碳，在450纳米处观察到增强的蓝光发射。由于较高重量百分比的GCN有更多的缺陷中心，观察到更高的电导率（7.6462×10 S/cm）和光导率（0.113 S）。由于5GCN具有较高的导电性，它被嵌入到棉织物中。制成的智能服装可用于制造柔性、轻质、环保的光电器件。此外，根据文献，GCN具有高抗菌活性，因此它可以作为军队和医疗界的服装。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e6b3/9445280/16a5f210805e/gr2.jpg

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用于军事应用的、在棉布中使用纳米石墨氮化碳/聚乙烯醇的智能服装。

Smart apparel using nano graphitic carbon nitride/PVA in a cotton cloth for military application.

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