Advanced Search
RSS LinkedIn Twitter

Journal Archive

Johnson Matthey Technol. Rev., 2015, 59, (4), 331




爱德华·罗森堡是美国蒙塔纳大学的化学教授。他的研究方向是应用复合材料进行水系统中的离子去除、分离和聚集。该项研究旨在寻找固相吸附剂,以用于选择性地吸附在美国南部纳瓦霍族保留地的废物流中发现的的铀酰离子 (UO22+)。该项技术可能被用于去除地下水和地表水中的这类离子,以及去除纳瓦霍族保留地上饮用水中的微量铀酰。

In the Lab: Uranium Capture From High Sulfate and Nitrate Waste Streams with Modified Silica Polyamine Composites

Johnson Matthey Technology Review features new laboratory research


Edward Rosenberg is a Professor of Chemistry at the University of Montana, USA. His research interests are in the areas of the applications of composite materials for metal ion removal, separation and concentration from aqueous systems.

About the Researcher

  • Name: Edward Rosenberg

  • Position: Professor

  • Department: Chemistry and Biochemistry

  • University: University of Montana

  • Street: 32 Campus Drive

  • City: Missoula, 59812

  • Country: USA

  • Email Address:

About the Research

The objective of this research is to find a solid phase adsorbent that is selective for uranyl cation (UO22+) in the types of waste streams found on the Navajo reservation in the southern part of the USA. The technology could potentially be used to remove this ion from ground and surface waters and to remove trace uranyl from drinking water supplies on the reservation.

There are several ion exchange materials on the market that report effective removal of uranium from water. Silica polyamine composites (SPC) are patented and commercialised ion exchange materials currently being developed for use in water remediation by Johnson Matthey Water Technologies division. SPC are made by the coating of amorphous silica gel particles with functionalised silane, which are further reacted with polymeric amines to provide the parent composites WP-1 and BP-1 (Figure 1).

Fig. 1.

Synthesis of the SPC materials

Synthesis of the SPC materials

The parent SPC can then be modified to make them more specific to a given metal or group of metals (Figure 2).

Fig. 2.

Ligand modified SPC and their applications to date

Ligand modified SPC and their applications to date

Preliminary results on the removal of uranyl cation from solutions that mimic the contamination profiles of waste streams on the Navajo reservation have been obtained using a range of SPC materials. The most effective SPC is then compared with a polystyrene material with related functional groups using equilibrium batch studies. The results of this exciting work are expected to be submitted for publication shortly.

Much work remains to be done before the group can go forward to applying this technology to remediation on the Navajo reservation. Breakthrough studies are currently underway as well as more direct comparisons with other materials. Most importantly cycle testing must be done with actual waste stream samples from the reservation to evaluate the usable lifetime of the solid phase adsorbents under real working conditions. The results obtained to date are certainly worth following up with pilot scale runs as the next milestone.


Ranalda Tsosie is a graduate student in chemistry and environmental studies at the University of Montana and her work on this project is acknowledged.


Selected Publications

  1.  E. Rosenberg, P. Miranda and Y. O. Wong, ‘Oxine Modified Silican Polyamine Composites for the Separation of Gallium from Aluminium, Ferric from Nickel and Copper from Nickel, US Patent 8,343,446; 2012
  2.  Y. O. Wong, P. Miranda and E. Rosenberg, J. Appl. Polym. Sci., 2010, 115, (5), 2855 LINK
  3.  M. A. Hughes, J. Wood and E. Rosenberg, Ind. Eng. Chem. Res., 2008, 47, (17), 6765 LINK
  4.  M. A. Hughes and E. Rosenberg, Sep. Sci. Technol., 2007, 42, (2), 261 LINK
  5.  E. Rosenberg and R. J. Fisher, University of Montana, ‘Materials and Methods for the Separation of Copper Ions and Ferric Iron in Liquid Solutions’, US Patent 7,008,601; 2006
  6.  E. Rosenberg and D. C. Pang, University of Montana, ‘System for Extracting Soluble Heavy Metals from Liquid Solutions’, US Patent 5,997,748; 1999

Read more from this issue »