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New ChemComm Associate Editor

04 Jan 2011

I am delighted to welcome Professor Michael Krische (University of Texas at Austin, USA) as the new ChemComm North American Associate Editor for Organic Chemistry.

His research focuses on catalytic reaction development with applications in natural product synthesis. A central theme involves the identification of new reactivity patterns, the evolution of related catalytic processes and, ultimately, the development of new synthetic strategies.

Professor Krische’s editorial office is now open for submissions in the area of organic chemistry. We look forward to working with him in his new role.

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Frozen assets in biobanks

21 Dec 2010

Scientists from Sweden have devised a technique that extracts both DNA and RNA from frozen tissue in a bid to improve large-scale extractions from samples stored in biobanks, which could aid cancer research.

Tobias Sjöblom and colleagues from Uppsala University used magnetic silica beads to target and extract DNA and RNA from tissue samples. Because DNA competes with RNA to attach to the beads, the DNA can be recovered first. ‘The technology fulfils an unmet need, so has a huge potential impact on tissue biobanking,’ says Lucy Mathot from Sjöblom’s team.

High quality DNA and RNA preparations are necessary to study genes responsible for cancer and to identify which cancer medication to use. Researchers prefer to carry out analyses using tissues frozen from fresh because the fragments they can get from these samples are longer and better preserved than with alternative methods. Current column-based techniques for the serial extraction of DNA and RNA are labour-intensive so are not suitable for large scale applications and the automation needs of cancer biobanks.

Tissue samples are broken down, magnetic silica beads are added, the beads attach to DNA and RNA and are removed with a magnet

Sjöblom’s team broke down the tissue samples by grinding them with a chaotropic salt solution, which helps to break down the DNA and RNA, and then added the magnetic silica beads. When the beads attached to the DNA, they were able to recover the samples with a magnet. Then they captured the remaining RNA in the same way.

Bert Vogelstein, a cancer researcher at the Johns Hopkins University School of Medicine in the US says: ‘The technique looks like it will be quite useful for preparing precious samples for next-generation sequencing analysis.’

In the future, the team plans to implement the procedure on a robotic platform to enable parallel sample processing.

Jennifer Newton

Interested? Read Sjöblom’s ChemComm communication.

Could your work be an asset to ChemComm? Submit today and make an impact.

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Now available – new article templates

17 Dec 2010

We have introduced slightly revised templates for all our article types. This means that the citation information will be much more visible to readers, both online and in print, so should facilitate wider readership of your work.

Make sure you use the latest templates when submitting your next article.

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Ionic liquid could be used as rocket fuel

10 Dec 2010

A hydrazine-based ionic liquid could be used as rocket fuel, say US scientists.

The combustibility of ionic liquids, a hazard for most applications, has inspired researchers to consider them as possible propellants in rocket fuels. Robin Rogers and his colleagues from The University of Alabama in Tuscaloosa and C3 Propulsion in Huntsville have found that an ionic liquid based on one of the most widely used rocket fuel propellants, hydrazine, ignited on contact with a catalyst, without the need for an oxidant or an ignition source.

The team studied the behaviour of nitrate salts of 2-hydroxyethylhydrazinium upon addition of various catalysts. It was found that in the presence of one particular solid catalyst, Ir-alumina (known as Shell 405), and at temperatures above only 100 °C, the salts ignited, producing smoke and gas.

Addition of 2-hydroxyethylhydrazinium dinitrate to the solid catalyst Shell 405, followed by smoke, flame and residual catalyst

Rogers explains that the impetus for the research was increased safety: ‘we wanted to see if we could take a hydrazine-like molecule, which is volatile, turn it into a non-volatile salt and yet still have the same reactivity that the hydrazine did. We were pretty excited because it worked.’

In addition to decreasing vapour toxicity by replacing hydrazine with an ionic liquid, this material could lead to safer, more efficient, forms of rocket fuel since ignition could occur simply by running the ionic liquid over a catalyst bed, eliminating the need for stabilisers or an additional liquid oxidant.

‘Clearly, this is not only a safer way of propellant ignition, it is also more effective as it allows for low temperature combustion,’ says Christopher Hardacre, an expert in ionic liquids and catalysis from Queen’s University Belfast in Northern Ireland. Hardacre adds that the low volatility associated with ionic liquids as well as the low cost of the materials makes this propellant system even more attractive for various applications.

The work is still in its infancy and the next step will be to optimise the material for specific applications. ‘We need the real rocket scientists out there to weigh in and tell us what needs to be improved or to find better molecules or better salts,’ says Rogers.

Patricia Pantos

For more information, download Rogers’ ChemComm communication.

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Emerging Investigators issue now published online!

08 Dec 2010

Finally, the wait is over – ChemComm issue 1 has arrived and it does not fail to disappoint! It is bursting at the seams, filled with some truly outstanding Feature Articles and Communications from emerging scientists from across the globe, all of whom are in the early stages of their independent careers.

So why not take a look at issue 1 today? It is available to view online and all the articles will be free to access until the end of 2011. If you would like to be considered for next year’s issue (2012) then please email the ChemComm Editorial Office expressing your interest.

We are also pleased to announce that this ‘Emerging Investigators issue’ has also been recognised as an official activity for celebrating the International Year of Chemistry (IYC) during 2011. Why not take a look at the IYC website and keep up-to-date on what else is happening throughout 2011 to celebrate the achievements of chemistry and its contributions to the well-being of humankind.

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A testament to undergraduates & women in science

25 Nov 2010

Great research can start anywhere including your own undergraduate laboratory, as recently demonstrated by scientists in the US.

Whilst running a teaching laboratory at the Texas Woman’s University, Manal Rawashdeh-Omary had senior undergraduate students attempting to reproduce literature findings published 10 years previously by Rasika Dias (from the University of Texas at Arlington) her collaborator. The students were asked to recreate a trinuclear silver pyrazolate complex, where one group of students obtained the expected non-luminescent dry product, whilst the other attained an unexpected green-luminescent product. Rather than simply dismissing the green product as experimental error, Rawashdeh-Omary directed her research group to investigate the reason for this ‘mistake’.

(From left to right): Samuel Kiplagat, Tiffany Vaughan, Manal Rawashdeh-Omary, Shylaja Dharanipathi & Jacqueline Washington

The group realised that the green-luminescent complex was actually reacting with benzene – a highly toxic chemical, known for its carcinogenic properties. By incorporating the complex into thin films, the sensor could detect minute amounts of benzene vapour (and other small organic vapours) with remarkable reversibility, selectivity, speed and sensitivity. This is an important development for environmental and health issues, as well as making advancements in fundamental chemical phenomena for donor-acceptor and acid-base chemistry.

It is refreshing to see high quality research coming from universities and departments actively supporting women in science. Texas Woman’s University is the largest university primarily for women in the USA, with over 90% of the undergraduate population being female. Omary explains that many of the staff and students are mothers, balancing their research and studies with family responsibilities. So it is inspiring to learn that top quality research can be produced from all levels of academia and this is a true testament to undergraduates, showing what hard work and dedication can achieve.

Fancy reading more about this on/off benzene sensor? Then why not download the article today, which has been published in ChemComm and will be free to access until the 24th December.

Written by Edward Morgan

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5th ChemComm International Symposium

23 Nov 2010

The 5th ChemComm International Symposium will take place in Japan and China in May 2011. The purpose of RSC journal symposia is to bring together scientists in a stimulating and friendly environment that will foster collaborations between the researchers and the universities involved in the meetings.

The symposium will feature three one-day meetings. Each one day meeting will feature a selection of lectures covering organic chemistry and catalysis given by some of the world’s leading international scientists. The first one-day meeting, will be held at Kyoto University, Japan, before the symposium moves to China for two further events. The second one-day meeting will be held in Lanzhou University with the final instalment taking place at Nankai University, Tianjin. The symposium is organised by Chemical Communications, the Royal Society of Chemistry and the local host organisations.

The symposium will appeal to academic and industrial scientists with an interest in organic chemistry and catalysis. Attendance at the symposium is free of charge and student participation is strongly encouraged.

For more information on the dates, venues and speakers please visit the symposium website.

ChemComm Editor Robert Eagling with his two Korean hosts from the 4th ChemComm symposia

ChemComm Editor Robert Eagling with his two Korean hosts from the 4th ChemComm symposium

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Temperature breakthrough for hydrogen storage

17 Nov 2010

A compound first made in 1923 releases hydrogen at a lower temperature than ammonia borane, one of the most studied materials for hydrogen storage.

Efficient hydrogen storage is an important step in developing a hydrogen economy. One way of storing hydrogen is in chemical compounds that reversibly release hydrogen when they are heated. Diammoniate of diborane (DADB, [(NH₃)₂BH₂]⁺[BH₄]^–) as a hydrogen-containing species has the potential to be a storage material, but the crystal structure of the compound that would give valuable information about its properties has not been resolved until now.

Using a combination of X-ray and neutron powder diffraction patterns, Mark Bowden and Tom Autrey at the Pacific Northwest National Laboratory, Richland, and the Los Alamos National Laboratory, and coworkers resolved the crystal structure. ‘DADB is an interesting compound because it contains a high weight fraction of hydrogen, one of the highest for a stable material at room temperature,’ says Bowden.

Diammoniate of diborane contains a high weight fraction of hydrogen, one of the highest for a stable material at room temperature

When Bowden and the team heated DADB, they found that it behaved in a similar way to ammonia borane, but DADB releases hydrogen at 85°C, whereas ammonia borane releases hydrogen at 110°C.

Hydrogen release at this temperature is very interesting since it is in this temperature range that a practical hydrogen storage system must operate, says Stewart Parker of the Rutherford Appleton Laboratory, Didcot, UK, but it is important to have better knowledge of the system’s reversibility.

Jon Counsell

Enjoy this story? Download the full article from ChemComm and add your comments below.

Also of interest: the ChemComm web themed issue on Hydrogen.

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Safer sunscreens

17 Nov 2010

Coating titania nanoparticles with carbon could result in a safer UV filter to be used in sunscreen, say Italian scientists.

Long-term exposure to UVA and UVB radiation from sunlight can cause wrinkles, damaged skin and, in some cases, skin cancer. Titania (TiO₂), one of the main components in sunscreens, can absorb and scatter UVA and UVB radiation. However, titania can also become reactive under UV rays and in contact with water, generating free radicals that cause skin damage.

Now, Ivana Fenoglio from the University of Torino and Stefano Livraghi from the Institute for Health and Consumer Protection, Ispra, and their teams have modified the surface of titania nanoparticles to decrease their reactivity under UV. The groups coated the nanoparticles with ethylene glycol and heated the resulting compound to 300ºC to carbonise it. They found that this reduced the nanoparticles’ oxidative power and consequently decreased free radical formation. ‘It was very surprising to find out that by using ethylene glycol as a precursor, the formation of free radicals is reduced. This differs from the results of other studies done with titania nanoparticles modified with carbon,’ says Fenoglio.

Long-term exposure to UV radiation from sunlight can cause wrinkles, damaged skin and, in some cases, skin cancer

‘To use titania particles for skin care, a delicate balance is needed to prevent formation of reactive oxygen species, which have been suspected to cause skin damage, without affecting the desirable optical properties,’ says Sefik Suzer, an expert in inorganic nanoparticles at Bilkent University in Ankara, Turkey. ‘This research will undoubtedly help in developing a new generation of cosmetic products as well as leading to formulation of new routes for special applications of titania.’

‘This research may be a starting point for setting up protocols to produce UV filters that may find applications in different fields including the cosmetics industry,’ says Fenoglio.

Lorena Tomas Laudo

Download the full ChemComm communication to find out more about this work.

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A silver bullet for DNA separation

27 Oct 2010

A simple and greener way to separate DNA using branched silver microparticles is revealed by scientists in China.

Separation techniques are required for a multitude of applications from disease diagnosis to environmental monitoring. Many materials are used to separate complex chemical mixtures with more recent interest focussing on magnetic nanoparticles as they can be easily recovered.

However, preparation of magnetic nanoparticles requires a large amount of organic reagents and energy and it can be difficult to get the right dimensions. Now Erkang Wang and co-workers at the Changhun Institute of Applied Chemistry have developed crystalline silver particles, know as dendrites, as an alternative to magnetic nanoparticles for DNA separation. ‘The development of a facile, economical and simple strategy to synthesize a new monodisperse, easily-modified substitute for magnetic nanoparticles with controlled size is a great challenge’ explains Wang.

Nanoparticles can be used to detect DNA then be easily separated using gravity

Read the full story here

Link to journal article
Ultrasensitive nucleic acid detection using confocal laser scanning microscope with high crystalline silver dendrites
Xuan Yang, Xuping Sun, Zhaozi Lv, Weiwei Guo, Yan Du and Erkang Wang, Chem. Commun., 2010, DOI: 10.1039/c0cc03280h

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