| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 187936 | Electrochimica Acta | 2012 | 7 Pages |
Photocatalytic methods for environmental pollution abatement have been an active field of research endeavor for over three decades. However, the effectiveness of this approach is enhanced several-fold when the inorganic semiconductor active material is combined with other complementary components. In this regard, materials design paradigms can take a leaf out of Nature's playbook and enhance the scope further. This review article discusses three such types of nanocomposite assemblies based on the combination of the semiconductor (mostly transition metal oxides) with (a) clays, (b) carbon, and (c) metals. Other miscellaneous nanocomposites are also reviewed and areas needing further work are identified.
► Review of literature where oxide semiconductor photocatalyst, specifically titanium dioxide, has been combined with high surface area supports. ► This review article discusses three such types of nanocomposite assemblies based on the combination of the semiconductor (mostly transition metal oxides) with (a) clays, (b) carbon, and (c) metals. ► Other miscellaneous nanocomposites are also reviewed and areas needing further work are identified.
