Ferreira Tânia, Vale A Catarina, Gonçalves Afonso, Pinto Alexandra C, Sousa Diana, Guimarães Humberto, Moreira Inês P, Silva Carlos, Gomes Fernanda, Fernandes Ana, Torres Lubélia, Caldeira Margarida, Lopes Paula, Cruz Inês, Taoufiq Amin, Pinheiro Raquel, Alves Joao, Magalhães Pedro, Antunes Joana C, Henriques Mariana, Neto Pedro, Antunes Wilson, Freitas Clementina, Cunha Fernando, Fangueiro Raul
Fibrenamics Association, Institute of Innovation on Fiber-based Materials and Composites, University of Minho, 4710-057 Guimarães, Portugal.
Centre for Textile Science and Technology (2C2T), University of Minho, 4710-057 Guimarães, Portugal.
J Mater Chem B. 2025 Jul 23;13(29):8732-8748. doi: 10.1039/d4tb02453b.
This work developed a new strategy to create active protection against chemical, biological, radiological and nuclear (CBRN) threats, based on polyurethane-based coatings for outer (water and oil-repellency) and inner (CBRN protection) functionalization of fabric. The internal coatings were functionalized with varying concentrations of zinc oxide nanoparticles (ZnO) and/or graphene nanoplatelets (Gf) and carefully spread onto a military-grade camouflage fabric using a knife coating methodology. Hence, a new double-layered system was created consisting of one double-coated fabric combined with a lining knitted fabric. Thereafter, its structural, mechanical, and thermal properties were evaluated, along with breathability and moisture management capacity. Preliminary CB protection assessment of the coated fabrics included evaluation of chemical penetration resistance and repellence (against 30% (v/v) HSO and 10% (w/v) NaOH; ISO 6530), antibacterial activity against and (ISO 22196), and antiviral activity using the bacteriophage MS2 as a surrogate of the SARS-CoV-2 virus (ISO 18184). The performance of the functionalized fabrics was assessed against chemical and biological warfare agents following the NATO standard AEP-38, and against high-voltage emission of X-rays. Finally, the attenuation of the fabrics was also tested analysing their response to alpha radiation ( Am-241) and beta radiation ( C-14, Sr-90/Y-90, CI-36 and Cs-137) generated by reference planar sealed sources. In summary, the produced coated fabrics are combined with specific linings following a rationale that enables the development of active, yet comfortable, protective garments suitable for both military and civilian applications. For the first time, to the best of our knowledge, scalable, promising and cost-effective solutions offering BQR protection simultaneously are here proposed.
这项工作开发了一种新策略,以实现针对化学、生物、放射和核(CBRN)威胁的主动防护,该策略基于用于织物外层(防水防油)和内层(CBRN防护)功能化的聚氨酯基涂层。内部涂层用不同浓度的氧化锌纳米颗粒(ZnO)和/或石墨烯纳米片(Gf)进行功能化,并使用刮刀涂布法小心地涂覆在军用级迷彩织物上。因此,创建了一种新的双层系统,该系统由一种双面涂层织物与一种衬里针织织物组成。此后,对其结构、机械和热性能以及透气性和水分管理能力进行了评估。涂覆织物的初步CB防护评估包括耐化学渗透性和排斥性评估(针对30%(v/v)H₂SO₄和10%(w/v)NaOH;ISO 6530)、对金黄色葡萄球菌和大肠杆菌的抗菌活性(ISO 22196)以及使用噬菌体MS2作为SARS-CoV-2病毒替代品的抗病毒活性(ISO 18184)。按照北约标准AEP-38评估功能化织物对化学和生物战剂的性能,以及对X射线高压发射的性能。最后,还通过分析织物对参考平面密封源产生的α辐射(²⁴¹Am)和β辐射(¹⁴C、⁹⁰Sr/⁹⁰Y、³⁶Cl和¹³⁷Cs)的响应来测试其衰减情况。总之,所生产的涂覆织物与特定衬里相结合,其原理使得能够开发出适用于军事和民用应用的主动且舒适的防护服。据我们所知,首次提出了同时提供BQR防护的可扩展、有前景且具有成本效益的解决方案。
