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Chemistry World news article on dye treatment

08 Mar 2011

A Catalysis Science & Technology article has appeared in the society magazine Chemistry World. The paper, by Colin P. Horwitz, Terrence J. Collins and colleagues from Carnegie Mellon University, Pittsburgh, has recently been published as an Advance Article, read the original manuscript:

Fe-TAML/hydrogen peroxide degradation of concentrated solutions of the commercial azo dye tartrazine
Evan S. Beach, Ryan T. Malecky, Roberto R. Gil, Colin P. Horwitz and Terrence J. Collins
Catal. Sci. Technol. , 2011, Advance Article
DOI: 10.1039/C0CY00070A, Paper

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Real-world treatment for dye-contaminated effluents

US scientists have found that a dye oxidation process using low levels of an iron catalyst could be used to degrade highly contaminated wastewater under ambient conditions.

128 tonnes of dyes are released daily into the global environment and the cost to the textile industry of removing the dyes is high. Wastewater remediation is challenging because of its diverse and often changing composition. Multiple technologies are employed to achieve the regulatory standard for treated water discharge. In some cases, remediation of highly concentrated waste streams becomes a greater challenge because biological treatment is too slow or ineffective or chemical treatment is inefficient… Read the full article in Chemistry World

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Discovery – Can Chemistry Save the World?

04 Mar 2011

The BBC radio series Discovery – Can Chemistry Save the World? presents an episode on Green Chemistry, well worth a listen:

http://www.bbc.co.uk/i/p00dtz7p/

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Catalysis Science & Technology welcomes in the Year of the Rabbit

03 Feb 2011

As February 3rd is Chinese New Year, the Catalysis Science & Technology team would like to wish our authors, readers and referees success in the Year of the Rabbit.

We are expecting exciting things for this year, with the first issue of the journal being published. Be part of something exciting in the Year of the Rabbit, and submit your research now!

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Acetylation of alcohols using titania nanoparticles

02 Feb 2011

In this exciting new Catalysis Science & Technology communication, Chien-Tien Chen and colleagues from Taiwan, have developed a new technique for the acetylation of alcohols using TiO2 nanoparticles functionalized with active acetate surface groups.

Acetylation of alcohols is a commonly used technique in organic synthesis, so new and better methods are constantly being sought.

Chen found that his titania based catalyst was superior to those made of ZrO2, Y2O3 and WO3 nanoparticles, and that there was no need for chromatographic purification after completion of acetylation, an advantage in practical applications.

To find out more, read the full article for FREE…

Oxidative, photo-activated TiO2 nanoparticles in the catalytic acetylation of primary alcohols
Chien-Tien Chen, Jun-Qi Kao, Cheng-Yuan Liu and Ling-Yu Jiang
Catal. Sci. Technol., 2011, Advance Article
DOI: 10.1039/C0CY00005A, Communication

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Catalysis Science & Technology now on Facebook and Twitter!

25 Jan 2011

You can find out what is going on in Catalysis Science & Technology in new ways now we have joined Facebook and Twitter.

Keep up to date with the latest articles and news by becoming a follower of our Twitter feed @CatalysisSciTec

Twitter is a fantastic way to get brief summaries of what is happening right now, and is becoming an ever popular way of keeping up with the latest science.

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Or if you’re on Facebook, why not join our group?

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Bridging the gap in catalysis via multidisciplinary approaches

17 Jan 2011

Read the Dalton Transactions themed issue on ‘Bridging the gap via catalysis via multidisciplinary approaches’.

This interesting collection of articles is ‘dedicated to molecular approaches in catalysis dealing with the preparation, characterization, modeling, and reactivity of catalysts whether homogeneous, heterogeneous or biocatalysts’ and includes contributions from the guest editors Christophe Coperet and Rutger van Santen, as well as a range of scientists such as Timo Jacob, Dieter Vogt, Xiaodong Zou and Johannes G. de Vries.

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Sign up for Free Access to Catalysis Science & Technology

14 Jan 2011

Catalysis Science & Technology, a high impact “top-tier” multidisciplinary journal from the RSC, that focuses on both the fundamental science and technological aspects of catalysis is available for FREE during 2011 and 2012.

All you need to do is to complete a simple registration process, and your access will be managed by institution and IP address.

The current issue of the journal will be freely available to everyone online, without the need for any registration. Make sure you know when the issue has been published by signing up to our free e-alert service.

To register for free access at your institution or to sign up for our free E-alert service, please complete the online form.

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Metal free catalysts for aliphatic C-H bond oxidation

06 Dec 2010

Metal-free polymers have the potential to replace toxic metal catalysts in hydrocarbon oxidation reactions, according to an international team of chemists in the RSC journal Chemical Science.

Yong Wang, at the Max-Planck Institute of Colloids and Interfaces, Potsdam, Germany, and colleagues replaced some of the carbon atoms in graphitic carbon nitride with boron. The resulting polymeric material was better than previous biomimetic homogeneous oxidation catalysts at oxidising substituted aromatics.

Oxidations of sp3 hybridised C-H bonds are challenging because the oxidised products are more reactive than the starting materials and so they tend to over-oxidise. This was not a problem for Wang’s catalyst, which was highly selective at forming ketones or aldehydes.

Synthesis of boron doped polymeric carbon nitride solids and their use as metal-free catalysts for aliphatic C–H bond oxidation
Yong Wang, Haoran Li, Jia Yao, Xinchen Wang and Markus Antonietti
Chem. Sci., 2011, Advance Article

DOI: 10.1039/C0SC00475H , Edge Article

Submit your latest catalysis research to Catalysis Science and Technology!

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