Reversible Carbon Dioxide Capture into Platinum-Hydroxo Bonds

Posted on behalf of Stuart Bartlett, web writer for Dalton Transactions

The capture of inert gases, such as CO2, is a fundamental process across biology and transition metal chemistry. There are many advantages to CO2 fixation; one important example is to reduce greenhouse gas emissions from waste streams. The Piers group in Calgary have found that platinum(II) complexes with sterically imposing diimine ligands can undergo CO2 insertion reversibly into a Pt-OH bond to give new carbonate ligands.

These complexes are easily synthesised from a platinum precursor, trans-[Pt(SMe2)2Cl(R)] {R = Me, Ph} , in the presence of a diimine ligand followed by chloride abstraction using Ag2O/H2O to give [Pt(NN)(OH)(R)] {NN = Diimine-(3,5-bis-(2,6-diisopropylphenyl)benzene)}. Also, by using a dichloride precursor, the dihydroxo species can also be obtained. This dihydroxo species was found to react immediately with 1 atm CO2 to yield [(NN)Pt(CO32)] nearly quantitatively. At a lower temperature of 205 K, NMR studies showed the presence of a [(NN)Pt(CO3H)2] complex, which reverted back to [(NN)Pt(CO32)] when warmed up. This process is thought to occur via de-insertion of CO2, to give the initial Pt-OH bond, followed by H2O elimination back to [(NN)Pt(CO32)].

Analysis of the mixed hydroxo-alkyl species, [Pt(NN)(OH)(R)], showed ~50% insertion of CO2 into the Pt-OH bond at room temperature, increasing to 100% at 260 K. Using NMR analysis, this was observed to be a fully reversible process upon heating back to room temperature, giving the initial [Pt(NN)(OH)(R)] complex. Alkane elimination (R-H) was not observed in any circumstances, whereas CO2 elimination as seen as the more favoured route. Also at the lower temperatures, where the CO2 is retained, the alkane elimination barrier is thought to be too high.

This research displays how important transition metal chemistry can be in reactions of chemically inert species, such as CO2, at normal temperatures. This reversible capture points to many important areas, such as biological reactions of enzymes, possible pathways to develop new synthons in organic chemistry and industrial applications for reversible CO2 capture.

Reversible insertion of carbon dioxide into Pt(II)–hydroxo bonds

Find out more from the article:

Reversible insertion of carbon dioxide into Pt(II)–hydroxo bonds
Tracy L. Lohr, Warren E. Piers and Masood Parvez
Dalton Trans., 2013, 42, 14742-14748
DOI: 10.1039/C3DT51701B


Stuart BartlettStuart Bartlett is currently doing a 1 year postdoc position with David Cole-Hamilton at the University of St Andrews, focusing on the conversion of renewable oils towards fine chemical production using metathesis. He obtained his PhD from the University of Southampton investigating the mechanism of ethene oligomerisation catalysis using NMR and X-ray Absortion Spectroscopy.

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Not Just Another Gold-Gold Love Story

Posted on behalf of Ian Mallov, web writer for Dalton Transactions

One of chemistry’s small, fascinating deviations from scientific expectation is the tendency of a few types of metal atoms to attract instead of repel each other when they are formally positively charged. This tendency is known for several of the lower late transition metals, including mercury, platinum and palladium. But the attraction is strongest in that most innately alluring of metals, gold, and the concept has its own Latinized term: aurophilicity.

Fernández and co-workers report unique examples of these interactions between positively-charged gold atoms. Gold(I) complexes bound to carbene ligands are a class of compounds of which there are many known and useful variants. Though expensive, they’ve been used with considerable success to catalyze transformations of organic molecules. In their paper, these chemists use Fischer-type carbenes, excellent at accepting electron density from the metal to which they bind, but rarely used in gold chemistry.

X-ray diffraction studies of their synthesized (via transmetallation from tungsten(0) analogues) gold compounds in the solid state, together with theoretical studies by Density Functional Theory computations affirm the attractions between gold atoms of adjacent molecules. They also prepared a ferrocene-bridged dinuclear gold complex, utilizing the ferrocene bridge as a rigid, “semi-support” for the gold atoms (picture two flexible branches at opposite ends of a solid trunk) and the solid-state and calculated structures show the gold atoms, well out on these “branches,” bending toward one another and at a distance even closer than the gold atoms in the “unsupported” complexes.

There is even an explanation offered: using Second-Order Perturbation Theory computations, it appears that electron density is donated from a doubly-occupied d-orbital of one gold atom into an empty p-orbital of the adjacent atom, and the energies associated with this interaction are indeed significant.

Fischer-type gold(I) carbene complexes stabilized by aurophilic interactions

Find out more from the paper:

Fischer-type gold(I) carbene complexes stabilized by aurophilic interactions
Daniela I. Bezuidenhout, Belinda van der Westhuizen, Amos J. Rosenthal, Michael Wörle, David C. Liles and Israel Fernández
Dalton Trans., 2014, Advance Article
DOI: 10.1039/C3DT52961D


Ian MallovIan Mallov is currently a Ph.D. student in Professor Doug Stephan’s group at the University of Toronto. His research is focused on synthesizing new Lewis-acidic compounds active in Frustrated Lewis Pair chemistry. He grew up in Truro, Nova Scotia and graduated from Dalhousie University and the University of Ottawa, and worked in chemical analysis in industry for three years before returning to grad school.

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Increased Silica Sphere Surface Area Aids Protein Separation

Posted on behalf of Liana Allen, web writer for Dalton Transactions

Protein purification is an essential step in the study and characterisation of naturally occurring molecules and the understanding of their functions in different biological processes. Before an in-depth study can be achieved, the protein of interest needs to be separated not only from the non-protein constituents of the tissue or cell culture, but also from any other proteins present. The latter is usually the most difficult aspect of the separation process.

Protein tagging is a common way of separating target proteins from other biological materials. In an example of this tagging method, target proteins are deliberately expressed with histidine (His) residues, which have a high affinity for binding to metal ions. This technique is popular due to its easy adaptation to any protein tagging system, however it also has limitations including long operation times and the necessity for pretreatment of the organic matter. Recently, this separation procedure has been improved by immobilising the metal ions on solid supports such as silica nano-spheres, though low surface area and low surface metal ion density have thus far limited practical application of this.

In this paper, the authors report an efficient synthesis of nickel functionalised silica nano-spheres and demonstrate their superior performance in the affinity purification of His-tagged proteins. By first chemically affixing nickel ions to the surface of silica nano-spheres, then removing the silica cores, hollow spheres are created, with greater surface area and higher Ni2+ surface density than the current nano-particle materials used for protein separation. The authours demonstrate that His-tagged TRX proteins could be separated directly from crude E. coli cell material using their hollow, Ni2+ functionalised nano-spheres. Moreover, after washing and sonicating, the nano-spheres could be reused up to five times while maintaining the same high efficiency.

 Preparation of hollow nickel silicate nanospheres for separation of His-tagged proteins

To read more, see:

Preparation of hollow nickel silicate nanospheres for separation of His-tagged proteins
Yonghui Wu, Guanxiao Chang, Yanbao Zhao and Yu Zhang
Dalton Transactions, 2013, Advance Article, DOI:10.1039/c3dt52084f


Liana AllenDr. C. Liana Allen is currently a post-doctoral research associate in the group of Professor Scott Miller at Yale University, where she works on controlling the enantio- or regioselectivity of reactions using small peptide catalysts. Liana received her Ph.D. in organic chemistry at Bath University with Professor Jonathan Williams, where she worked on developing novel, efficient syntheses of amide bonds.

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Top Ten most accessed Dalton Transactions articles from July to September 2013

These are the most accessed Dalton Transactions articles during the last 3 months (July to Septmeber):

Recent progress in the synthesis of inorganic nanoparticles
C. N. R. Rao, H. S. S. Ramakrishna Matte, Rakesh Voggu and A. Govindaraj
Dalton Trans., 2012,41, 5089-5120
DOI: 10.1039/c2dt12266a

Asymmetric cyclopropanation of olefins catalysed by Cu(I) complexes of chiral pyridine-containing macrocyclic ligands (Pc-L*)
Brunilde Castano, Stefano Guidone, Emma Gallo, Fabio Ragaini, Nicola Casati, Piero Macchi, Massimo Sisti and Alessandro Caselli
Dalton Trans., 2013,42, 2451-2462
DOI: 10.1039/c2dt32347h

C–H functionalization: thoroughly tuning ligands at a metal ion, a chemist can greatly enhance catalyst’s activity and selectivity
Georgiy B. Shul’pin  
Dalton Trans., 2013,42, 12794-12818
DOI: 10.1039/c3dt51004b

Ferrocene-based compartmental ligand for the assembly of neutral ZnII/LnIII heterometallic complexes
Vadapalli Chandrasekhar, Amit Chakraborty and E. Carolina Sañudo
Dalton Trans., 2013,42, 13436-13443
DOI: 10.1039/c3dt51432c

A fluorescence ‘turn-on’ chemodosimeter for selective detection of Nb5+ ions in mixed aqueous media
Abhishek Kumar Gupta, Abhimanew Dhir and Chullikkattil P. Pradeep  
Dalton Trans., 2013,42, 12819-12823
DOI: 10.1039/c3dt50914a

Phosphonate coupling molecules for the control of surface/interface properties and the synthesis of nanomaterials
Gilles Guerrero, Johan G. Alauzun, Michel Granier, Danielle Laurencin and P. Hubert Mutin  
Dalton Trans., 2013,42, 12569-12585
DOI: 10.1039/c3dt51193f 

A new fluorescent probe for distinguishing Zn2+ and Cd2+ with high sensitivity and selectivity
Yiqun Tan, Junkuo Gao, Jiancan Yu, Ziqi Wang, Yuanjing Cui, Yu Yang and Guodong Qian
Dalton Trans., 2013,42, 11465-11470
DOI: 10.1039/c3dt50991e

Multifunctional NH2-mediated zirconium metal–organic framework as an efficient visible-light-driven photocatalyst for selective oxidation of alcohols and reduction of aqueous Cr(VI)
Lijuan Shen, Shijing Liang, Weiming Wu, Ruowen Liang and Ling Wu  
Dalton Trans., 2013,42, 13649-13657
DOI: 10.1039/c3dt51479j

Approaches to efficient molecular catalyst systems for photochemical H2 production using [FeFe]-hydrogenase active site mimics
Mei Wang, Lin Chen, Xueqiang Li and Licheng Sun  
Dalton Trans., 2011,40, 12793-12800
DOI: 10.1039/c1dt11166c

Do you have any comments or thoughts on these articles? Why not leave these in the comment box below.

If you have an article to submit to Dalton Transactions, please submit to us here!

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HOT articles for October

These are the HOT articles as recommended by the referees. And we’ve made them free to access for the next 4 weeks!

A new design for nucleolipid-based Ru(III) complexes as anticancer agents
Daniela Montesarchio, Gaetano Mangiapia, Giuseppe Vitiello, Domenica Musumeci, Carlo Irace, Rita Santamaria, Gerardino D’Errico and Luigi Paduano
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52320A

Free to access until 25 November 2013.


2-(1-(2-Benzhydrylnaphthylimino)ethyl)pyridylnickel halides: synthesis, characterization, and ethylene polymerization behavior
Erlin Yue, Liping Zhang, Qifeng Xing, Xiao-Ping Cao, Xiang Hao, Carl Redshaw and Wen-Hua Sun
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52234B

Free to access until 25 November 2013.

5-Aminotetrazole induces spin crossover in iron(III) pentadentate Schiff base complexes: experimental and theoretical investigations
Radovan Herchel and Zdenek Trávnícek   
Dalton Trans
., 2013, Advance Article
DOI
: 10.1039/C3DT52301B

Free to access until 25 November 2013.


Ferrocene-based multichannel ion-pair recognition receptors
Pedro Molina, Alberto Tárraga and María Alfonso
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52459K

Free to access until 25 November 2013.


Polynuclear copper(II) pyrazolate complexes: temperature-dependent protonolysis reactions, crystal structures and high catalytic activity toward the condensation of nitriles with 2-aminoalcohol
Ling Wang, Bin Guo, Hong-Xi Li, Qi Li, Hai-Yan Li and Jian-Ping Lang
Dalton Trans., 2013,42, 15570-15580
DOI: 10.1039/C3DT51970H

Free to access until 25 November 2013.


Photophysical study of spiro-bifluorene bridged Pt(II), Os(II) and Ir(III) luminescent complexes and supramolecular arrays
Maria Pia Gullo, Julie Batcha Seneclauze, Barbara Ventura, Andrea Barbieri and Raymond Ziessel
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52007B

Free to access until 25 November 2013.



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Ensure Functional Material is Piping Hot Throughout

Posted on behalf of Lewis Downie, web writer for Dalton Transactions

Some synthetic techniques can cause differing morphologies and sometimes be more efficient with both time and energy. One technique which is becoming more prevalent is microwave synthesis. Microwave assisted synthesis is solution based and therefore considered “soft” but has been found to allow the synthesis of a number of materials and in particular ones based around metal organic frameworks.

Use of microwave energy leads to the fast and uniform heating of a solution when compared to, say, solvothermal reaction techniques. It also leads to a greater number of potential nucleation points. These differences can lead to a more homogenous and rapidly synthesised product. For the synthesis of Fe(OH)(1,4-NDC)•2H2O (1,4-NDC = 1,4-naphthalenedicarboxylate), “PCP-Fe”, it is found that all these advantages occur.

PCP-Fe is normally synthesised hydrothermally, involving a 3 day heating period. This leads to the formation of cubic crystals (~ 10 μm3) with a broad size distribution. Microwave irradiation can reduce synthesis time to as short as one minute, however 30 minutes is found to produce crystalline, homogenous particles of PCP-Fe. The microwave synthesised particles are smaller and of differing morphology (prisms of ~ 15 μm in length and 3 μm in width) which is expected from a technique which provides many and rapid nucleation opportunities.

A number of other studies were performed in order to optimise the synthesis with mixed results. Modifying the reaction time leads to a number of varying, yet similar morphologies – thirty minutes is found to lead to the most uniform structures. Decreased reaction time leads to an increase in defects and a corresponding lowering of crystallinity. Variance in reagent concentration also has a direct effect on crystallinity – an inverse relationship is described.

The microwaved sample also appears to show improved gas adsorption properties. This is suggested to be directly related to the smaller particle size when compared to the hydrothermal sample. This shows the importance of morphology when assessing material properties and also the understanding of a number of synthetic techniques in order to access different morphologies.

Rapid synthesis of iron 1,4-naphthalenedicarboxylate by microwave irradiation with enhanced gas sorption

Find out more from the paper:
Rapid synthesis of iron 1,4-naphthalenedicarboxylate by microwave irradiation with enhanced gas sorption
Yongbing Lou, Jinxi Chen, Jing Jiang and Qilong Bao
Dalton Trans., 2013, Accepted Manuscript
DOI: 10.1039/C3DT52546E, Paper


Lewis DownieLewis Downie has wide ranging interests in the chemical sciences but has a background in functional materials. His main research focus is the investigation of these materials using crystallographic techniques. He is currently a postdoctoral research assistant at the University of St Andrews, U.K.

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A Novel Material for the Detection of Explosives

Posted on behalf of Liana Allen, web writer for Dalton Transactions

Picric acid is an organic compound which has an explosive power more powerful than TNT. It is widely used in munitions and explosives, but also appears in the pharmaceuticals and dye industries as a chemical reagent. Picric acid can cause several negative health effects, such as skin irritation and respiratory system damage.1 Therefore, it is an important challenge to develop sensors that can detect picric acid safely and reliably, for both the recognition of explosives and the detection of its presence as an environmental pollutant.2

The most promising method of detecting picric acid is called ‘fluorescence quenching’, as this is a highly sensitive and inexpensive technique. In this paper, the authors report the synthesis of a new material which can detect picric acid in this manner. Taking advantage of the reliable, rigid way the metal platinum forms complexes with other molecules (‘ligands’), the authors make a novel material which naturally contains pores the correct size to accommodate picric acid molecules. Interaction of the ‘ligands’ and the picric acid once it has entered one of these pores induces a ‘fluoresence quenching’ response, allowing picric acid to be detected at very low concentrations, both in a liquid and as a gas.

PtII6 nanoscopic cages with an organometallic backbone as sensors for picric acid

To read more, see:

PtII6 nanoscopic cages with an organometallic backbone as sensors for picric acid
Dipak Samanta and Partha Sarathi Mukherjee
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52268G, Paper

1 B. Roy, A. K. Bar, B. Gole, P. S. Mukherjee, J. Org. Chem., 2013, 78, 1306.
2
M. E. Germain, M. J. Knapp, Chem. Soc. Rev., 2009, 38, 2543.


Liana AllenDr. C. Liana Allen is currently a post-doctoral research associate in the group of Professor Scott Miller at Yale University, where she works on controlling the enantio- or regioselectivity of reactions using small peptide catalysts. Liana received her Ph.D. in organic chemistry at Bath University with Professor Jonathan Williams, where she worked on developing novel, efficient syntheses of amide bonds.

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Call for papers: 2014 themed issues

Dalton TransactionsWe are delighted to announce that Dalton Transactions will be publishing a number of themed issues in 2014. We want you to submit your work. If your research fits within the following themed issue topics, read on…

Organometallic and Coordination Derivatives of Nanocarbons –deadline 1st December 2013

Layered Inorganic Solids–deadline 15th January 2014

Synergy between Experiment and Theory–deadline 29th January 2014

 

Details of the scope of each issue is below.

How to submit?
All types of manuscript—communications, full papers and Perspectives, will be considered for publication. The manuscript should be prepared according to our article guidelines and submitted via our online system.

All manuscripts will be subject to the normal refereeing procedure and inclusion in the themed issue will be at the discretion of the Guest Editors. Please indicate in your submission that you would like the manuscript to be considered for this themed issue.

Issue scopes:

Organometallic and Coordination Derivatives of Nanocarbons
Guest edited by Professors Andrei Khlobystov and Andreas Hirsch, this issue focuses on the nanoscience and nanotechnology of inorganic and organometallic nanomaterials, including synthesis, structural and functional characterisation, and theory.

Layered Inorganic Solids
Guest edited by Professors Russell Morris, Jiri Cejka, Petr Nachtigall and Wieslaw Roth, this issue focuses on the experimental and theoretical aspects of the chemistry of layered materials.

Synergy between Experiment and Theory
Guest edited by Professor Eric Clot, this issue highlights the benefit of using simultaneous experimental and computational approaches to address a particular problem in inorganic or organometallic chemistry.

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The Power of Antimony to Cure “Jericho’s Buttons”

Posted on behalf of Ian Mallov, web writer for Dalton Transactions

If you’ve ever donated blood you may recognize leishmaniasis as a disease on the questionnaire that may prevent you from doing so. Caused by parasites transmitted to humans by the bite of sandflies, British troops serving in the Middle East in World War I referred to it as “Jericho’s Buttons,” as many contracted the disease, with its characteristic button-shaped red skin lesions, near the ancient city of Jericho. Today new cases of leishmaniasis are estimated at 1.5-2 million worldwide per year, most in Latin America, the Indian sub-continent and the Middle-East. Leishmaniasis caused over 50,000 deaths worldwide in 2010.

The best-known cures for the disease are two drugs based, strangely, on antimony, like its periodic table neighbour arsenic known for forming compounds of extreme toxicity. These drugs – sodium stibogluconate (SSG) and meglumine antimoniate (MGA) – have been used for over seventy years. They must be administered by injection and closely monitored, and pockets of population have developed resistance to them. Though in the long-term a vaccine is hoped for, in the near term new or more easily-administered drugs are needed.

Andrews et. al. explore the curative potential – as well as the human toxicity – of twenty-six new compounds of antimony. These compounds were obviously designed to have some similar features to the existing SSG and MGA, but also to be simple. They feature two carboxylate groups, and three phenyl, benzyl, or ortho-, meta-, or para-tolyl groups bound to antimony. Many syntheses required only simple salt metathesis reactions between antimony(V)triorgano dibromides and sodium or potassium carboxylates at room temperature.

The researchers tested each in varying concentrations for toxicity on human primary fibroblast cells, and for anti-leishmanial activity on L. major promastigote parasites. As they state, the molecular mechanism by which SSG and MGA works in the body has not been confirmed, but is suspected to proceed via reduction of the antimony(V) species to an antimony(III) species by thiols. Their findings, though preliminary, show the trend that the meta- and para-tolylantimony molecules were the most effective against L. major promastigotes, while the ortho-tolyl derivatives were less effective, and those featuring phenyl or benzyl groups were more toxic to cells.

Their work certainly seems a useful step in establishing trends for designing new antimony drugs to combat leishmaniasis. One wonders, however, about issues of excretion of these drugs or their products from the human body – particularly in areas of the world whose water treatment lags behind First World standards.

Anti-leishmanial activity of heteroleptic organometallic Sb(V) compounds

Find out more from the paper:

Anti-leishmanial activity of heteroleptic organometallic Sb(V) compounds
uhammad Irshad Ali, Muhammad Khawar Rauf, Amin Badshah, Ish Kumar, Craig M. Forsyth, Peter C. Junk, Lukasz Kedzierski and Philip C. Andrews
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51382C, Paper


Ian MallovIan Mallov is currently a Ph.D. student in Professor Doug Stephan’s group at the University of Toronto. His research is focused on synthesizing new Lewis-acidic compounds active in Frustrated Lewis Pair chemistry. He grew up in Truro, Nova Scotia and graduated from Dalhousie University and the University of Ottawa, and worked in chemical analysis in industry for three years before returning to grad school.

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HOT Articles for September

Explanation of the site-specific spin crossover in Fe(mtz)6(BF4)2
Andrii Rudavskyi, Remco W. A. Havenith, Ria Broer, Coen de Graaf  and Carmen Sousa  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52027G

Multifunctional MnO2 nanosheet-modified Fe3O4SiO2/NaYF4:Yb, Er nanocomposites as novel drug carriers
Peng Zhao,  Yihua Zhu, Xiaoling Yang, Jianhua Shen, Xin Jiang, Jie Zong and Chunzhong Li  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52066H

Semiconducting layered technetium dichalcogenides: insights from first-principles
Philippe F. Weck, Eunja Kim and Kenneth R. Czerwinskic  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51903A


 
Excited-state spectroscopic investigations of multinuclear complexes based on [Ru(bpy)3]2+ moieties connected to 2,2′-bipyridine and 2,2′;6′,2′′-terpyridine ligands
Raphael Horvath,  Jean Lombard, Jean-Claude Leprêtre, Marie-Noëlle Collomb, Alain Deronzier,  Jérôme Chauvin and  Keith C. Gordon  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52153B

Selectively recognizing organic semiconducting molecules on solid state molecular cages based on ZnOTCPP
Huibiao Liu, Ke Wang, Liang Zhang, Xuemin Qian, Yongjun Li and Yuliang Li  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51609A


 
Polymeric heterometallic Pb–Ag iodometallates, iodoplumbates and iodoargentates with lanthanide complex cations as templates
Wang Fang, Chunying Tang, Ruihong Chen, Dingxian Jia, Wenqing Jiang and Yong Zhang  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51829A

Tb3+ sensitization in a deoxycholate organogel matrix, and selective quenching of luminescence by an aromatic nitro derivative
Ramesh Kandanelli, Anindya Sarkar and Uday Maitra  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51630J

From antiferromagnetic to ferromagnetic exchange in a family of oxime-based MnIII dimers: a magneto-structural study
Wdeson P. Barros, Ross Inglis, Gary S. Nichol, Thayalan Rajeshkumar, Gopalan Rajaraman, Stergios Piligkos, Humberto O. Stump and Euan K. Brechin
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52009A

Di(imino)aryltin(IV) dichlorides as tectons for heterometallic coordination compounds
Ioana Barbul, Richard A. Varga, Kieran C. Molloy and Cristian Silvestru  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52022F

Molecular rectangles from platinum(II) and bridging dicarbene, diisocyanide and 4,4′-bipyridine ligands
Markus Schmidtendorf, Tania Pape and F. Ekkehardt Hahn  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51813B

Fingerprinting the oxidation state of U(IV) by emission spectroscopy
Emtithal Hashem, Giulia Lorusso, Marco Evangelisti, Thomas McCabe, Carola Schulzke, James A. Platts and Robert J. Baker  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT52151F


 
6-Substituted purines containing thienyl or furyl substituents as artificial nucleobases for metal-mediated base pairing
Indranil Sinha,  Jutta Kösters, Alexander Hepp and Jens Müller  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51691A

Co-ordinative properties of a tripodal trisamide ligand with a capped octahedral preference
Fawaz A. Saad, James C. Knight, Benson M. Kariuki and Angelo J. Amoroso  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51791H

Synthesis and structural characterization of tris(2-pyridonyl)methyl complexes of zinc and thallium: a new class of metallacarbatranes and a monovalent thallium alkyl compound
Ahmed Al-Harbi, Yi Rong and Gerard Parkin  
Dalton Trans., 2013,42, 14053-14057
DOI: 10.1039/C3DT52163J

An unusually unstable ortho-phosphinophenol and its use to prepare benzoxaphospholes having enhanced air-stability
Shanshan Wu, Nihal Deligonal and John D. Protasiewicz  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51919H

Synthesis and biological evaluation of hydroxyl-substituted Schiff-bases containing ferrocenyl moieties
Wansong Chen, Weizhu Ou, Liqiang Wang, Yuanqiang Hao, Jiashun Cheng, Juan Li and You-Nian Liu  
Dalton Trans., 2013, Advance Article
DOI: 10.1039/C3DT51977E

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