Velikov Dean I, Jancik-Prochazkova Anna, Pumera Martin
Future Energy and Innovation Laboratory, Central European Institute of Technology, Brno University of Technology, Purkyňova 123, 612 00 Brno, Czech Republic.
Advanced Nanorobots and Multiscale Robotics Laboratory, Faculty of Electrical Engineering and Computer Science, VSB - Technical University of Ostrava, 17. listopadu 2172/15, 708 00 Ostrava, Czech Republic.
ACS Nanosci Au. 2024 Apr 9;4(4):243-249. doi: 10.1021/acsnanoscienceau.4c00002. eCollection 2024 Aug 21.
Nanoplastics are considered an emerging organic persistent pollutant with possible severe long-term implications for the environment and human health; therefore, their remediation is of paramount importance. However, detecting and determining the concentration of nanoparticles in water is challenging and time-consuming due to their small size. In this work, we present a universal yet simple method for the detection and quantification of nanoplastics to monitor their removal from water using magnetic nanorobots. Nanoplastics were stained with a hydrophobic fluorescent dye to enable the use of photoluminescence techniques for their detection and quantification. Magnetic nanorobotic tools were employed to capture and subsequently remove the nanoplastics from contaminated waters. We demonstrated that nanorobots can capture and remove more than 90% of the nanoplastics from an aqueous solution within 120 min. This work shows that easy-to-use common fluorescent dyes combined with photoluminescence spectroscopy methods can be used as an alternative method for the detection and quantification of nanoplastics in water environments and swarming magnetic nanorobots for efficient capture and removal. These methods hold great potential for future research to improve the quantification and removal of nanoplastics in water, and it will ultimately reduce their harmful impact on the environment and human health.
纳米塑料被认为是一种新兴的有机持久性污染物,可能对环境和人类健康产生严重的长期影响;因此,对其进行修复至关重要。然而,由于纳米颗粒尺寸小,检测和测定水中纳米颗粒的浓度具有挑战性且耗时。在这项工作中,我们提出了一种通用且简单的方法,用于检测和定量纳米塑料,以监测使用磁性纳米机器人从水中去除纳米塑料的情况。纳米塑料用疏水性荧光染料染色,以便能够使用光致发光技术对其进行检测和定量。采用磁性纳米机器人工具从受污染的水中捕获并随后去除纳米塑料。我们证明,纳米机器人能够在120分钟内从水溶液中捕获并去除超过90%的纳米塑料。这项工作表明,易于使用的普通荧光染料与光致发光光谱方法相结合,可以用作检测和定量水环境中纳米塑料的替代方法,而群体磁性纳米机器人可用于高效捕获和去除。这些方法在未来研究中具有巨大潜力,可用于改进水中纳米塑料的定量和去除,最终将减少其对环境和人类健康的有害影响。
