Department of Bioproducts and Biosystems Engineering, University of Minnesota Twin Cities, St. Paul, MN 55108-6005, USA.
Nanotechnology. 2016 Nov 18;27(46):465601. doi: 10.1088/0957-4484/27/46/465601. Epub 2016 Oct 17.
With increasing biomedical and engineering applications of selenium nanospheres (SeNS), new efficient methods are needed for the synthesis and long-term preservation of these nanomaterials. Currently, SeNS are mostly produced through the biosynthesis route using microorganisms or by using wet chemical reduction, both of which have several limitations in terms of nanoparticle size, yield, production time and long-term stability of the nanoparticles. Here, we introduce a novel approach for rapid synthesis and long-term preservation of SeNS on a solid microporous support by combining a mild hydrothermal process with chemical reduction. By using a natural sponge as a solid three-dimensional matrix for nanoparticle growth, we have synthesized highly monodisperse spherical nanoparticles with a wide size range (10-1000 nm) and extremely high yield in a relatively short period of time (1 h). Additionally, the synthesized SeNS can be stored and retrieved whenever needed by simply washing the sponge in water. Keeping the nanospheres in the support offers remarkable long-term stability as particles left on the sponge preserve their morphological and colloidal characteristics even after eight months of storage. Furthermore, this work reveals that SeNS can be used for efficient mercury capture from contaminated waters with a record-breaking mercury removal capacity of 1900 mg g.
随着硒纳米球(SeNS)在生物医学和工程领域的应用不断增加,需要开发新的有效方法来合成和长期保存这些纳米材料。目前,SeNS 主要通过生物合成途径使用微生物或通过湿化学还原法来制备,但这两种方法在纳米颗粒的尺寸、产率、生产时间和纳米颗粒的长期稳定性方面都存在一些局限性。在这里,我们介绍了一种将温和水热法与化学还原法相结合,在固体微孔载体上快速合成和长期保存 SeNS 的新方法。我们使用天然海绵作为纳米颗粒生长的固体三维基质,在相对较短的时间内(1 小时)合成了具有宽尺寸范围(10-1000nm)和极高产率的高度单分散球形纳米颗粒。此外,只需用水清洗海绵即可随时储存和检索合成的 SeNS。将纳米球保存在载体中具有显著的长期稳定性,因为留在海绵上的颗粒即使在储存八个月后仍保持其形态和胶体特性。此外,这项工作表明,SeNS 可用于从受污染的水中高效捕获汞,其汞去除容量达到创纪录的 1900mg g。
