Archive for the ‘Hot Articles’ Category

Hot Frontier: Pharmaceutical potential of selenium and tellurium compounds

Edward Tiekink is based at the University of Malaya

Edward Tiekink gives us a concise overview of drug developments involving selenium and tellurium compounds in this Dalton Transactions Frontier.

Download it today, whilst it is still free….

Therapeutic potential of selenium and tellurium compounds: Opportunities yet unrealised
Edward R. T. Tiekink
Dalton Trans., 2012
DOI: 10.1039/C2DT12225A

Why not take a look at some of Edward Tiekink’s other recent articles:

The metal–carbonyl···π(aryl) interaction as a supramolecular synthon for the stabilisation of transition metal carbonyl crystal structures
Julio Zukerman-Schpector, Ionel Haiduc and Edward R.T. Tiekink
Chem. Commun., 2011, 47, 12682-12684
DOI: 10.1039/C1CC15579B, Communication

Interwoven coordination polymers sustained by tautomeric forms of the bridging ligand
Pavel Poplaukhin and Edward R. T. Tiekink
CrystEngComm, 2010, 12, 1302-1306
DOI: 10.1039/B916585A, Paper

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HOT Article: Catalyst with magnetic recovery

Jie-Sheng Chen and colleagues from Shanghai Jiao Tong University report the synthesis of a Pd/Fe3O4 nanocomposite that can be used as a heterogeneous catalyst for the hydrogenation of p-nitrophenol.  Convenient recycling of the catalyst using a magnet is possible – find out more by downloading the article whilst it’s free to access:

Controlled synthesis of magnetic Pd/Fe3O4 spheres via an ethylenediamine-assisted route
Hai-Qun Wang, Xiao Wei, Kai-Xue Wang and Jie-Sheng Chen
Dalton Trans., 2012
DOI: 10.1039/C2DT12278B

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Hot Article: Le Bail fitting used to extract single-crystal diffraction data

A team of researchers have determined the structure of metastable compound Bi2MnxAl7−xO14, an intermediate phase in the decomposition of mullite-Bi2MnxAl4-xO9+δ, using a strategy  that included the use of a charge-flipping algorithm and Monte-Carlo based simulations.  The strategy may be particularly useful in situations where it is difficult to get high quality crystals.

The article is currently free so download it today.

Mullite-derivative Bi2MnxAl7−xO14 (x ~ 1): structure determination by powder X-ray diffraction from a multi-phase sample
Tao Yang,  Vaclav Petricek,  Wei Wan,  Zidong Wei and Junliang Sun
Dalton Trans., 2012
DOI: 10.1039/C2DT11855F

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HOT Article: Facile Photoluminescent Phosphines

This Hot Article from the University of Western Ontario by Laura C. Pavelka and Kim M. Baines details some interesting cycloaddition reactions of phosphaalkenes with alkynes.

Reactions of this type have not been well studied and typically require electron rich alkynes and quite specialised phosphoalkenes for the reaction to proceed. Here the authors have developed a much simpler approach to the syntheses using readily available reagents and a more direct route, allowing them to produce a variety of 1,2-dihydrophosphinines in good yields.

To find out how, you can download their article which is free to access for the next 4 weeks

Facile synthesis of luminescent benzo-1,2-dihydrophosphinines from a phosphaalkene
Laura C. Pavelka and Kim M. Baines
Dalton Trans., 2012, Advance Article
DOI: 10.1039/C2DT11690A

To keep up to date with the latest news in inorganic chemistry you can also follow us on twitter or sign up to our e-alert service.

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Spin transition polymorphs

A team of researchers have synthesised an iron(II) bispyrazolylpyridine complex in order to elucidate the interplay between spin transition and polymorphism.

Complexes demonstrating high spin–low spin crossover could prove to be very useful materials in technologies which rely on switching mechanisms, however, to use them to their full potential, any properties affecting their performance need to be understood – crystal symmetry being one of them. Mario Ruben and co-workers discovered that crystallisation of the iron(II) bispyrazolylpyridine complex produced two polymorphs which upon heating, yields a third polymorphic form. Interestingly, the different polymorphs each demonstrate different magnetic behaviour.

Whilst one polymorph, exhibits an abrupt, hysteretic high/low spin transition, the other remains low spin. The team have attributed this to varying levels of inter-molecular cooperativity within the crystal structures.

To read more, download the Dalton Transactions article now…

The interplay of iron(II) spin transition and polymorphism
Ivan Šalitroš, Olaf Fuhr, Andreas Eichhöfer, Robert Kruk, Ján Pavlik, Lubor Dlháň, Roman Boča and Mario Ruben

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Silver Complexes Kill Cancer Cells

Cisplatin is a well known chemotherapy drug used to treat a range of cancers. While the drug can be an effective treatment there are notable unwanted side-effects, which can include nausea, vomiting, kidney damage and loss of hearing. This new research from Leeds University by Charlotte Willans et al. details the activity of a range of silver complexes containing N-heterocyclic carbene (NHC) ligands which show comparable and even enhanced cytotoxicity compared to cisplatin. As the compounds don’t contain platinum they are likely to be less toxic and therefore exhibit fewer and less severe side-effects.

The team synthesised a series of monodentate, bidentate and macrocyclic cationic silver bis(NHC) complexes and tested their activity with cell lines of breast and colon cancer (MCF7 and DLD1 lines respectively). They found that the bidentate complexes showed enhanced cytotoxicity over the monodentate and macrocyclic ligands, which were similar to cisplatin. As yet the exact mechanisms of action are still unclear but are likely linked to the stabilities of the complexes.

For more information about this exciting research you can download the article which is free to access for 4 weeks. You can also keep up to date with all the latest news in inorganic chemistry by following us on twitter or signing up to the Dalton Transactions e-alert service.

Enhanced cytotoxicity of silver complexes bearing bidentate N-heterocyclic carbene ligands
Charlotte E. Willans, Diana C F Monteiro, Roger M Phillips, Benjamin D Crossley and Jake Fielden
Dalton Trans., 2012, Accepted Manuscript
DOI: 10.1039/C2DT12399A

Also of interest from the collection ‘Highlights in Chemistry’

Therapeutic applications of gold complexes: lipophilic gold(III) cations and gold(I) complexes for anti-cancer treatment
Chi-Ming Che and Raymond Wai-Yin Sun 
Chem. Commun., 2011, 47, 9554-9560
DOI: 10.1039/C1CC10860C, Highlight

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Using the ‘multicomponent’ strategy to improve hydrogen storage materials

The need for a hydrogen storage material that can store hydrogen reversibly, with little or no kinetic barrier, and at ambient conditions remains a great challenge for researchers in this field. In order to progress towards a future hydrogen economy, hydrogen storage materials must also be practical for mobile applications and of course be economically viable.

Many different materials have been proposed for hydrogen storage. These range from physisorption materials such as activated carbons, zeolites and Metal Organic Frameworks (MOFs) to materials based on chemisorption such as metal hydrides, ammonia boranes and alanates. The hydrogen binding mechanism of chemisorption materials is through the formation of strong covalent bonds with hydrogen and so even though they have high hydrogen storage capacities, the drawback is that due to their high hydrogen binding enthalpies, the materials must be heated to remove H2.

To improve the unfavorable thermodynamics and poor kinetics of complex hydrides, researchers have successfully applied a ‘multicomponent’ strategy whereby  two compounds are mixed together to form a multinary phase.  The mixed LiNH2–MgH2 system is a successful example of the employment of the ‘multicomponent’ strategy to improve the characteristics of complex hydrides for hydrogen storage. Applying this method to metal amidoborane systems is an exciting prospect.

With this in mind, Chen et al. synthesized a Li–Na mixed amidoborane, Na[Li(NH2BH3)2] using a wet-chemical method. Using first-principles techniques, the team were able to explore the likelihood of the existence of multicomponent Li–Na amidoboranes with varying  Li/Na ratios. They discovered that the dehydrogenation temperature of Na[Li(NH2BH3)2] is lower than that of lithium or sodium amidoboranes and determined that this could be due to a stronger dihydrogen bond interaction and  a moderate hydrogen atom removal energy. They also proposed the mechanism for the first-step dehydrogenation.

To find out more, read the Dalton Transactions full paper…

Li–Na ternary amidoborane for hydrogen storage: experimental and first-principles study

Wen Li, Ling Miao, Ralph H. Scheicher, Zhitao Xiong, Guotao Wu, C. Moysés Araújo, Andreas Blomqvist, Rajeev Ahuja, Yuanping Feng and Ping Chen

DOI: 10.1039/C2DT11819J

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Hot Article: The difference a solvent makes

Zinc alkyl complexes have an interesting role in a wide variety of stoichiometric and catalytic transformations and understanding how the ligands affect reactivity is important in understanding these structures and their reactivity. This Hot Article from Andrew Wheatley and Janusz Lewinski et al. details experiments involving the reactions of Et2Zn with a bicyclic guanidine.

 

Exposure of the produced complex (EtZn(hpp)) to undried air alters the composition depending on whether THF or CH2Cl2 is used as the solvent (displayed above). You can read the full details of the teams investigation by downloading their article below, which is free to access for 4 weeks.

Synthesis, structure and unique reactivity of the ethylzinc derivative of a bicyclic guanidine
Karolina Zelga, Michał Leszczyński, Iwona Justyniak, Arkadiusz Kornowicz, Maciej Cabaj, Andrew E. H. Wheatley and Janusz Lewiński
Dalton Trans., 2012, Advance Article
DOI: 10.1039/C2DT11959E

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Hot Communication: Magnesium MOF

Most metal organic frameworks are based on 3-d or 4-f elements such as Zn, Cu, Co, Ni and there are notably fewer containing lighter metals such as Li, Be, B, Mg, and Al. This Hot Communication by Pingyun Feng and Xianhui Bu et al. reports the first Mg-MOF example constructed from the [Mg33-OH)(CO2)6] trimer and opens up the possibility of further Mg-MOF systems.

The porous crystal shows relatively high H2 uptake (1.37% at 77 K and 1 atm) showing that Mg-MOF systems may have great potential. The applications of MOFs include gas storage, separation, purification and catalysis, undoubtedly developing these applications requires the design and improvement of new MOFs.

You can download this Dalton Transactions Hot Article below, which is free to access for 4 weeks.

Induction of trimeric [Mg3(OH)(CO2)6] in a porous framework by a desymmetrized tritopic ligand
Quanguo Zhai, Qipu Lin, Tao Wu, Shou-Tian Zheng, Xianhui Bu and Pingyun Feng
Dalton Trans., 2012, Advance Article
DOI: 10.1039/C2DT12215D

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HOT Article: Role of the activator in dimerization catalysis

Despite the fact that the catalytic activity of Cr and W imido complexes in ethylene dimerization processes has been studied by various authors, to date the analogous Mo catalysts have not been studied.  In this HOT article, Dyer et al. set out to fill this gap in our knowledge and several molybdenum bis(imido) complexes were tested for ethylene dimerization catalysis in combination with EtAlCl2, showing moderate activity when bulky aryl substituents at the imido ligand are employed. In contrast, when MeAlCl2 is used the activity of the catalyst decreases considerably. To understand the role of the activator in these processes the authors have determined the molecular structures of several complexes derived of the reaction of bis(imido) molybdenum compounds with different aluminium halide reagents.

Read more for FREE about the role of the activator in dimerization catalysis until 20th February 2012 at:

Application of molybdenum bis(imido) complexes in ethylene dimerisation catalysis
William R. H. Wright, Andrei S. Batsanov, Antonis M. Messinis, Judith A. K. Howard, Robert P. Tooze, Martin J. Hanton and Philip W. Dyer
Dalton Trans., 2012, Advance Article
DOI: 10.1039/C2DT12061E

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