Gutierrez Angela M, Dziubla Thomas D, Hilt J Zach
Rev Environ Health. 2017 Mar 1;32(1-2):111-117. doi: 10.1515/reveh-2016-0063.
The constant growth in population worldwide over the past decades continues to put forward the need to provide access to safe, clean water to meet human needs. There is a need for cost-effective technologies for water and wastewater treatment that can meet the global demands and the rigorous water quality standards and at the same maximizing pollutant efficiency removal. Current remediation technologies have failed in keeping up with these factors without becoming cost-prohibitive. Most recently, nanotechnology has been sought as the best alternative to increase access to water supplies by remediating those already contaminated and offering ways to access unconventional sources. The use of iron oxide magnetic nanoparticles as nanoadsorbents has led way to a new class of magnetic separation strategies for water treatment. This review focuses on highlighting some of the most recent advances in core-shell iron oxide magnetic nanoparticles and nanocomposites containing iron oxide nanoparticles currently being developed for water and wastewater treatment of organic pollutants. We discuss the novelty of these novel materials and the insight gained from their advances that can help develop cost-effective reusable technologies for scale-up and commercial use.
在过去几十年里,全球人口持续增长,这不断凸显出提供安全、清洁用水以满足人类需求的必要性。需要有经济高效的水和废水处理技术,既能满足全球需求和严格的水质标准,又能最大限度地提高污染物去除效率。目前的修复技术在不变得成本过高的情况下,未能跟上这些因素的要求。最近,纳米技术被视为最佳替代方案,通过修复已受污染的水源并提供获取非常规水源的方法,来增加水供应的可及性。使用氧化铁磁性纳米颗粒作为纳米吸附剂,引领了一类用于水处理的新型磁分离策略。本综述着重介绍核壳型氧化铁磁性纳米颗粒以及目前正在开发的含氧化铁纳米颗粒的纳米复合材料在水和废水处理有机污染物方面的一些最新进展。我们讨论了这些新型材料的新颖之处以及从其进展中获得的见解,这些见解有助于开发具有成本效益的可重复使用技术,以实现规模化和商业应用。