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Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Editor-in-Chief: José Oliveira; Deputy Editor: Mary Farrell
Online ISSN: 1613-6829
Associated Title(s): Advanced Energy Materials, Advanced Engineering Materials, Advanced Functional Materials, Advanced Healthcare Materials, Advanced Materials
Recently Published Issues
Current Issue:February 6, 2012
Volume 8, Issue 3
Volume 8, Issue 2
Volume 8, Issue 1
Volume 7, Issue 24
Volume 7, Issue 23
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Recently Published Articles
- A Strong Electronic Coupling between Graphene Nanosheets and Layered Titanate Nanoplates: A Soft-Chemical Route to Highly Porous Nanocomposites with Improved Photocatalytic Activity
In Young Kim, Jang Mee Lee, Tae Woo Kim, Hyo Na Kim, Hyoung-il Kim, Wonyong Choi and Seong-Ju Hwang
Article first published online: 10 FEB 2012 | DOI: 10.1002/smll.201101703
Strongly coupled nanocomposites of layered titanate and reduced graphene oxide (RGO) are synthesized by self-assembly involving RGO nanosheets and TiO2 nanosols and the following phase transformation of titania. A strong electronic coupling between the two nanospecies remarkably enhances visible light absorption. The hybridization with RGO improves the photocatalytic activity of the layered titanate for the visible-induced generation of photocurrent and the photodegradation of organic molecules.
- DNA-Length-Dependent Fluorescence Signaling on Graphene Oxide Surface
Po-Jung Jimmy Huang and Juewen Liu
Article first published online: 10 FEB 2012 | DOI: 10.1002/smll.201102156
Fluorescence energy transfer to graphene oxide is studied using covalently linked DNA probes ranging from 4 to 70 base pairs. The characteristic distance and mechanism of energy transfer are reported.
- Influence of the Shape of Nanostructured Metal Surfaces on Adsorption of Single Peptide Molecules in Aqueous Solution
Jie Feng, Joseph M. Slocik, Mehmet Sarikaya, Rajesh R. Naik, Barry L. Farmer and Hendrik Heinz
Article first published online: 10 FEB 2012 | DOI: 10.1002/smll.201102066
Peptide selectionby shaped metal surfaces is shown to be controlled by the size of surface features and the pattern of epitaxial sites. This relationship is described by the surface potential and facilitates the design of attractive peptide sequences for a given surface topography using computational approaches.
