About

Log in?

DTU users get better search results including licensed content and discounts on order fees.

Anyone can log in and get personalized features such as favorites, tags and feeds.

Log in as DTU user Log in as non-DTU user No thanks

DTU Findit
Boolean: (bicycle AND helmet) OR (head AND protection) (always group AND in parenthesis)
Title: title:(climate change)
Author: author:("bohr niels" OR "bohr n") (avoid only full first name)
Phrase: "water pump control" (does not work with wildcards)
Wildcards: wom?n pharm*

More help on how to search

Flexible matching

About search syntax

Search syntax Advanced
Close advanced
{{problem}}
By field Using AND/OR By author
This tool can help you build boolean queries suitable for doing a broad search for different synonyms or spellings of each word. Start via the drop-down below or just start typing in the search field.
{{ row.typeTitle }}: ( )

Since our index often lack the full first name of people it can be difficult to correctly search by author.

Fill in the fields and let us help you build a good query:

If you need to find everything possible, consider only searching by last name.

Use "Starting year" to ignore publications out of year range.

More...

Journal article

Alloy catalyst in a reactive environment: the example of ag-cu particles for ethylene epoxidation

By Piccinin, Simone1; Zafeiratos, Spiros; Stampfl, Catherine; Hansen, Thomas W; Hävecker, Michael; Teschner, Detre; Bukhtiyarov, Valerii I; Girgsdies, Frank; Knop-Gericke, Axel; Schlögl, Robert; Scheffler, Matthias ...and 1 more

From

School of Physics, The University of Sydney, Sydney, New South Wales 2006, Australia.1

Combining first-principles calculations and in situ photoelectron spectroscopy, we show how the composition and structure of the surface of an alloy catalyst is affected by the temperature and pressure of the reagents. The Ag-Cu alloy, recently proposed as an improved catalyst for ethylene epoxidation, forms a thin Cu-O surface oxide, while a Ag-Cu surface alloy is found not to be stable.

Several possible surface structures are identified, among which the catalyst surface is likely to dynamically evolve under reaction conditions.

Language: English
Publisher: American Physical Society (APS)
Year: 2010
Pages: 035503
ISSN: 10797114 and 00319007
Types: Journal article
DOI: 10.1103/PhysRevLett.104.035503
Keywords

DFT calculations alloy catalysts epoxidation of ethylene

DTU users get better search results including licensed content and discounts on order fees.

Log in as DTU user

Access

Analysis