Effective separation and remediation of environmentally hazardous pollutants are burning areas of research because of a constant increase in environmental pollution problems. An extensive number of emerging contaminants in the environmental matrices result in serious health consequences in animals, humans, and plants, even at trace levels. Therefore, it is of paramount significance to quantify these undesirable pollutants, even at a very low concentration, from the natural environment. Magnetic solid-phase extraction (MSPE) has recently achieved huge attention because of its strong magnetic domain and easy separation through an external magnetic field compared with simple solid-phase extraction. Therefore, MSPE appeared the most promising technique for removing and pre-concentration of emerging pollutants at trace level. Compared to the normal solid-phase extraction, MSPE as magnetic hybrid adsorbents offers the unique advantages of distinct nanomaterials and magnetic hybrid materials. It can exhibit efficient dispersion and rapid recycling when applying to a very complex matrix. This review highlights the possible environmental applications of magnetic hybrid nanoscale materials as effective MSPE sorbents to remediate a diverse range of environmentally toxic pollutants. We believe this study tends to evoke a variety of research thrust that may lead to novel remediation approaches in the forthcoming years.

由于环境污染问题的不断增加，对环境有害污染物的有效分离和修复是研究热点。环境基质中大量新出现的污染物会导致动物、人类和植物的严重健康后果，即使是痕量水平也是如此。因此，量化这些来自自然环境的有害污染物（即使浓度非常低）至关重要。与简单的固相萃取相比，磁性固相萃取（MSPE）具有强磁畴和易于通过外部磁场分离的优点，最近引起了极大的关注。因此，MSPE 成为去除和预浓缩痕量新兴污染物最有前途的技术。与普通固相萃取相比，MSPE 作为磁性杂化吸附剂提供了独特的纳米材料和磁性杂化材料的独特优势。当应用于非常复杂的基质时，它可以表现出有效的分散和快速回收。这篇综述强调了磁性混合纳米级材料作为有效 MSPE 吸附剂修复各种环境有毒污染物的可能环境应用。我们相信这项研究往往会引发各种研究方向，这些研究方向可能会在未来几年产生新的修复方法。这篇综述强调了磁性混合纳米级材料作为有效 MSPE 吸附剂修复各种环境有毒污染物的可能环境应用。我们相信，这项研究往往会引发各种研究方向，这些研究方向可能会在未来几年产生新的修复方法。这篇综述强调了磁性混合纳米级材料作为有效 MSPE 吸附剂修复各种环境有毒污染物的可能环境应用。我们相信这项研究往往会引发各种研究方向，这些研究方向可能会在未来几年产生新的修复方法。