Highlights are a short collection of bullet points that convey the core findings and provide readers with a quick textual overview of the article. These three to five bullet points describe the essence of the research (e.g. results or conclusions) and highlight what is distinctive about it.

Highlights will be displayed in online search result lists, the contents list and in the online article, but will not (yet) appear in the article PDF file or print.

Author instructions:
Highlights should be submitted as a separate file in EES by selecting "Highlights" from the drop-down list when uploading files. Please adhere to the specifications below.

Specifications:

• Include 3 to 5 highlights.
• There should be a maximum of 85 characters, including spaces, per highlight.
• Only the core results of the paper should be covered.

Examples

  Journal of Health Economics, Volume 29, Issue 4, July 2010, 524-535

Highlights

• We model two hospitals which have regulated prices and compete on quality.
• We examine changes in the level of information about hospital quality.
• Increasing information will increase quality if hospital costs are similar.
• Increasing information will decrease quality if hospital costs are very different.
• Welfare effects depend on ex-ante or ex-post assumptions about quality information.

  Applied Catalysis A, General, Volumes 411-412, 16 January 2012, 7-14

Highlights

• Highly c-axis oriented ZnO nanowires were grown on glass using aqueous solutions.
• The growth temperature does not exceed 95 °C in any step of the synthesis.
• The photocatalytic and wetting properties were studied upon UV irradiation.
• ZnO nanowires show superior photocatalytic activity.
• We report a reversible photo-induced transition from hydrophobic to super-hydrophilic.

  Biochimica et Biophysica Acta (BBA), Bioenergetics, Volume 1807, Issue 10, October 2011, 1364-1369

Highlights

• A conformational two-state mechanism for proton pumping complex I is proposed.
• The mechanism relies on stabilization changes of anionic ubiquinone intermediates.
• Electron-transfer and protonation should be strictly controlled during turnover.
• The mechanism explains the full reversibility of complex I.