Author Archive

Professor Philip Mountford completes his final term as Chairman for Dalton Transactions

Professor Philip Mountford (University of Oxford) will complete his final term as Chairman of Dalton Transactions’ Editorial Board at the end of December this year.

Philip, Chairman of the Editorial Board since January 2012, has been a fantastic ambassador for the Journal, representing Dalton Transactions at many conferences around the world. He has overseen 4 Editorial Board meetings (including at the 2013 Royal Society of Chemistry Editors’ Symposium in Brussels), guest edited two themed issues (Advances in metal-catalysed polymerisation and related transformations, and Earth Abundant Element Compounds in Homogeneous Catalysis) and chaired the Editorial and Advisory Boards of Dalton Transactions during a period of significant expansion of the Journal’s published volume.

He leaves Dalton Transactions in a very strong position, with the Journal reporting its highest ever impact factor for 2014 (4.19) and publishing over 2000 articles a year – the only weekly international journal for inorganic, organometallic and bioinorganic chemistry.

A presentation for Philip Mountford

Philip (left) receives a framed portrait of John Dalton from Dalton Transactions' Deputy Editor Guy Jones

Philip’s work on the Journal was recognised at a presentation, held during one of his last engagements for Dalton Transactions – chairing the final session of the 2015 RSC Coordination and Organometallic Chemistry Discussion Group Meeting (Oxford, 3-4 September 2015), during which Professor Jason Love (University of Edinburgh) was the Dalton Transactions-sponsored Plenary lecturer.

This was an especially relevant meeting, as Philip is Head of Inorganic Chemistry and Professor of Organometallic Chemistry and Catalysis at Oxford.

Philip was presented with a framed portrait of John Dalton, the Journal’s namesake, as both a token of our appreciation and to commemorate the 250th anniversary of John Dalton’s birth. Philip was also presented with a Dalton Transactions mug featuring the cover image of the 2013 themed issue that he guest edited.

Philip Mountford and Jamie Humphrey

Philip (Left) and Dalton Transactions' Publisher Jamie Humphrey visit a clean room during the 4th Dalton Transactions International Symposium

Among his numerous other important contributions and achievements during the past four years, Philip helped to celebrate the work of Dorothy Hodgkin, represented Dalton Transactions at its 4th International Symposium, and received the Schlenk Lectureship award in 2015.

Professor John Arnold (University of Berkeley, California) will succeed Philip as Chairman of the Editorial Board, from 1st January 2016.

“I am delighted that John Arnold will be taking over as Chair of the Editorial Board,” said Philip. “I know that under his leadership the board and editors will take the journal on from strength to strength. I have been very privileged to work with an outstanding group of professionals in the Dalton Transactions Editorial team and an equally talented and dedicated board.”

Thank you, Philip! We’ve been very privileged to work with you.

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Philip Mountford awarded 2015 Schlenk Lectureship

Philip Mountford

Congratulations to Professor Philip Mountford (University of Oxford; Chair of the Dalton Transactions Editorial Board), for his recent 2015 Schlenk Lectureship award, sponsored by BASF and the University of Tübingen, Germany, for his outstanding research into small molecule activation chemistry.

The Schlenk Lecture was established to honour the seminal work and research of Wilhelm Johann Schlenk; it includes a monetary prize, guest professorship, and additional allowances for accommodation and travelling. Previous prize winners are Professor Warren Piers (University of Calgary, 2011; Associate Editor, Dalton Transactions Editorial Board), and Kyoko Nozaki (Tokyo University, 2013).

Congratulations, Professor Mountford!

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Dalton Transactions Lecture at the University of California, Berkeley 2015

The 2014 Dalton Transactions Lecture awardee – Professor Christine Thomas (Brandeis University) – delivered her presentation at UC Berkeley last month. This Lecture is awarded annually to an exceptional young inorganic chemist in the Americas. Previous recipients are:

Christine Thomas2013 Trevor Hayton (UCSB)
2012 Teri Odom (Northwestern University)
2011 Daniel Gamelin (U Washington)
2010 Paul Chirik (Princeton University)
2009 Francois Gabbai (Texas A & M University)
2008 Dan Mindiola (Indiana University)
2007 Geoff Coates (Cornell University)
2006 John Hartwig (University of Illinois at Urbana-Champaign)
2005 Kit Cummins (MIT)

Each Dalton Transactions Lecture awardee is provided with an honorarium and a commemorative plaque.

Professor Thomas is an Associate Professor of Chemistry at Brandeis University, and her research program focuses on synthetic inorganic, organometallic and bioinorganic chemistry.

In 2010, Professor Thomas was selected for the U.S. Department of Energy’s Early Career Research Program and in 2011, she was named a Alfred P. Sloan Fellow. Christine is also the recipient of a 2012 National Science Foundation CAREER award and was selected as a 2012 Organometallics Fellow and a 2013/2014 Chemical Communications Emerging Investigator. Her dedication to teaching was recognized with The 2012 Michael L. Walzer ’56 Award for Excellence in Teaching at Brandeis. In 2012, she joined the Advisory Board for Chemical Communications and, as of May 2014, she is an Associate Editor for Dalton Transactions.

Congratulations to Professor Thomas for her Dalton Transactions Lecture award!

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The 6th International IMBG Meeting & Advanced Courses

6th International IMBG MeetingDalton Transactions and Metallomics are proud to be sponsoring poster prizes for the 6th International IMBG Meeting on Chemistry & Biology of Iron-Sulfur Clusters.
The meeting will be held on 13-18 September 2015, in Villard de Lans, a village located near Grenoble, France, in the beautiful surrounding of the Vercors mountains. It will include a two-day Advanced Course followed by a two and half day Conference.

Click here for full information and register today!

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A collection of papers in memory of Professor Robert Williams

Professor Robert Williams, Oxford, inorganic, Biological ChemistryProfessor Robert (Bob) Williams died this March at the age of 89. He was a true pioneer in the field of bio-inorganic chemistry – especially concerning the role of calcium as a biological messenger – and contributed substantially to our understanding of the evolution of life. Professor Williams was often considered as one of the first people to start thinking about metallomics as a field, and will be greatly missed amongst his peers.

In memory of Professor Williams’ huge contribution to the field, we have collated a number of his publications across Metallomics, Dalton Transactions and ChemComm below. We hope you enjoy revisiting some of his exceptional work.

Copper proteomes, phylogenetics and evolution, L. Decaria, I. Bertini, R.J.P. Williams, Metallomics, 2011, 56–60

Zinc proteomes, phylogenetics and evolution, L. Decaria, I. Bertini, R.J.P. Williams, Metallomics, 2010, 706–709

A chemical systems approach to evolution, R.J.P. Williams, Dalton Transactions, 2007, 991–1001

Metallo-enzyme catalysis, R.J.P. Williams, Chemical Communications, 2003, 1109–1113

The chemical elements of life, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1991, 539–546

Temperature study of the solution conformations of aqueous lanthanide(III) complexes containing monodentate ligands, A.L. Du Preez, S. Naidoo, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1988, 2315–2321

A proton NMR study of some CoII complexes containing the N-hexadecyl-iminodiacetate ligand, C.J. Rix, R.J.P. Williams, Journal of the Chemical Society, Chemical Communications, 1986, 203–205

Solution conformation of aqueous lanthanide(III)-antipyrine complexes, A.L. Du Preez, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1986, 1425–1429

Precipitation within unilamellar vesicles. Part 1. Studies of silver(I) oxide formation, S. Mann, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1983, 311–316

Precipitation within unilamellar vesicles. Part 2. Membrane control of ion transport, S. Mann, M.J. Kime, R.G. Ratcliffe, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1983, 771–774

The characterisation of the nature of silica in biological systems, S. Mann, C.C. Perry, R.J.P. Williams, C.A. Fyfe, G.C. Gobbi, G.J. Kennedy, Journal of the Chemical Society, Chemical Communications, 1983, 168–170

New organo-metallic reagents for electron microscopy, S. Mann, R.J.P. Williams, P.R. Sethuraman, M.T. Pope, Journal of the Chemical Society, Chemical Communications, 1981, 1083–1084

Solid state phosphorus NMR spectroscopy of minerals and soils, R.J.P. Williams, R.G.F. Giles, A.M. Posner, Journal of the Chemical Society, Chemical Communications, 1981, 1051–1052

Electron relaxation rates of lanthanide aquo-cations, B.M. Alsaadi, F.J.C. Rossotti, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1980, 2147–2150

Hydration of complexone complexes of lanthanide cations, B.M. Alsaadi, F.J.C. Rossotti, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1980, 2151–2154

Preparation of Ag2O crystallites within phospholipid vesicles and their use in nucleation studies, J.L. Hutchison, S. Mann, A.J. Skarnulis, R.J.P. Williams, Journal of the Chemical Society, Chemical Communications, 1980, 634–635

Studies of lanthanide (III) dipicolinate complexes in aqueous solution. Part 2. Hydration, B.M. Alsaadi, F.J.C. Rossotti, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1980, 813–816

Studies of lanthanide(III) pyridine-2,6-dicarboxylate complexes in aqueous solution. Part 1. Structures and 1H nuclear magnetic resonance spectra, B.M. Alsaadi, F.J.C. Rossotti, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1980, 597–602

Location of biological compartments by high resolution NMR spectroscopy and electron microscopy using magnetite-containing vesicles, S. Mann, A.J. Skarnulis, R.J.P. Williams, Journal of the Chemical Society, Chemical Communications, 1979, 1067–1068

Mapping organic molecules in biological space by high resolution NMR spectroscopy and electron microscopy, A.J. Skarnulis, P.J. Strong, R.J.P. Williams, Journal of the Chemical Society, Chemical Communications, 1978, 1030–1032

An investigation of some potential uses of the gadolinium(III) ion as a structural probe, E.C.N.F. Geraldes, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1977, 1721–1726

Structure of lanthanide(III) mono- and bis-dipicolinates in solution, B.M. Alsaadi, F.J.C. Rossotti, R.J.P. Williams, Journal of the Chemical Society, Chemical Communications, 1977, 527–529

Assignment of the NMR spectrum of iron(III) protoporphyrin IX dicyanide using paramagnetic shift and broadening probes, J.G. Brassington, R.J.P. Williams, P.E. Wright, Journal of the Chemical Society, Chemical Communications, 1975, 338–340

Conformational studies of peroxidase-substrate complexes. Structure of the indolepropionic acid-horseradish peroxidase complex, P.S. Burns, R.J.P. Williams, P.E. Wright, Journal of the Chemical Society, Chemical Communications, 1975, 795–796

The temperature dependence of some physical properties of cobinamides and cobalamins, S.A. Cockle, O.D. Hensens, H.A.O. Hill, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1975, 2633–2634

Conformational studies of lanthanide complexes with carboxylate ligands, B.A. Levine, J.M. Thornton, R.J.P. Williams, Journal of the Chemical Society, Chemical Communications, 1974, 669–670

Ethylenediaminetetra-acetato-lanthanate(III), -praesodimate(III), -europate(III), and -gadolinate(III) complexes as nuclear magnetic resonance probes of the molecular conformations of adenosine 5′- monophosphate and cytidine 5′-monophosphate in solution, C.M. Dobson, R.J.P. Williams, A.V. Xavier, Journal of the Chemical Society, Dalton Transactions, 1974, 1762–1764

Intramolecular nuclear Overhauser effects in proton magnetic resonance spectra of proteins, I.D. Campbell, C.M. Dobson, R.J.P. Williams, Journal of the Chemical Society, Chemical Communications, 1974, 888–889

Lanthanoid(III) cations as nuclear magnetic resonance conformational probes: Studies on cytidine 5′-monophosphate at pH 2, C.D. Barry, C.M. Dobson, R.J.P. Williams, A.V. Xavier, Journal of the Chemical Society, Dalton Transactions, 1974, 1765-1769

Nuclear magnetic resonance spectra of dimeric cupric compounds, W. Byers, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1973, 555–560

Separation of contact and pseudo-contact contributions to shifts induced by lanthanide(III) ions in nuclear magnetic resonance spectra, C.M. Dobson, R.J.P. Williams, A.V. Xavier, Journal of the Chemical Society, Dalton Transactions, 1973, 2662–2664

The effect of 1,3,5-trinitrobenzene on 1H nuclear magnetic resonance and electron paramagnetic resonance spectra of some cobalt(II) porphyrins, H.A.O. Hill, P.J. Sadler, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1973, 1663–1667

Origin of lanthanide nuclear magnetic resonance shifts and their uses, B. Bleaney, C.M. Dobson, B.A. Levine, R.B. Martin, R.J.P. Williams, A.V. Xavier, Journal of the Chemical Society, Chemical Communications, 1972, 791b–793

The chemistry of vitamin B12. Part XVI. Binding of thiols to the cobalt(II) corrins, S. Cockle, H.A.O. Hill, S. Ridsdale, R.J.P. Williams, Journal of the Chemical Society, Dalton Transactions, 1972, 297–302

A method of assigning 13C nuclear magnetic resonance spectra using europium(III) ion-induced pseudocontact shifts and C-H heteronuclear spin decoupling techniques, B. Birdsall, J. Feeney, J.A. Glasel, R.J.P. Williams, A.V. Xavier, Journal of the Chemical Society D: Chemical Communications, 1971, 1473–1474

Methylation by methyl vitamin B12, G. Agnes, S. Bendle, H.A.O. Hill, F.R. Williams, R.J.P. Williams, Journal of the Chemical Society D: Chemical Communications, 1971, 850–851

Kinetics of substitution of co-ordinated carbanions in cobalt(III) corrinoids, H.A.O. Hill, J.M. Pratt, S. Ridsdale, F.R. Williams, R.J.P. Williams, Journal of the Chemical Society D: Chemical Communications, 1970, 341

Thallium(I) as a potassium probe in biological systems, J.P. Manners, K.G. Morallee, R.J.P. Williams, Journal of the Chemical Society D: Chemical Communications, 1970, 965–966

The lanthanide cations as nuclear magnetic resonance probes of biological systems, K.G. Morallee, E. Nieboer, F.J.C. Rossotti, R.J.P. Williams, A.V. Xavier, R.A. Dwek, Journal of the Chemical Society D: Chemical Communications, 1970, 1132–1133

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The carbon‒metal bond and C‒H metalation: In celebration of the career of William C. Kaska

This themed collection on the carbon‒metal bond and C‒H metalation is devoted to the career of Professor William (Bill) Kaska, who will celebrate his 80th birthday on May the 13th, 2015. Bill was a faculty member at The University of California at Santa Barbara for the entirety of his 41-year independent career (1964‒2004). During this time, he supervised many graduate students and post-doctoral scholars, a large number of whom are active in teaching, research, and in industry positions today.

Professor William (Bill) Charles Kaska

Professor William (Bill) Charles Kaska

Throughout his career, Bill has been a true pioneer and adventurer in organometallic chemistry, bearing the innate synthetic flair and expertise to make unusual molecules where others had tried and failed. He has made several important (and perhaps under-recognized) impacts in the field of metal-mediated C‒H activation, as well as in several other areas of organometallic chemistry (see below). Perhaps most notably, Bill was one of the first researchers to realize the power of C‒H bond metalation using transition metals and his early work demonstrated some of the first reported instances of such chemistry.

During his career, Bill collaborated with many groups around the World, and was a visiting scientist at Monsanto in Zurich, at the Universities of Cambridge, Erlangen, Tübingen and Utrecht, and at the Max-Planck Institute in Mülheim. We celebrate the achievements of Bill, his mentors and co-workers in this themed collection: the publications kindly dedicated to this celebratory themed collection serve to illustrate how far the field has come since the publication of a number of seminal results over 40 years ago.


Beginnings

Bill Kaska was born, raised and educated in Ancón, a suburb of Panama City, located in the then U.S.-controlled Canal Zone. He graduated from Loyola University in Los Angeles in 1957 and subsequently joined the group of Professor John J. Eisch at St. Louis University. Eisch had just returned to the United States from a post-doctoral position with Professor Karl Ziegler in Mülheim, Germany. Bill was one of Eisch’s first graduate students, charged with the task of investigating the then unexplored reactivity of alkyl and aryl aluminium compounds with unsaturated systems as alternatives to alkyl lithium reagents. Two years later, the Eisch group moved to The University of Michigan in Ann Arbor, and it was around this time that Kaska and Eisch published the first bona fide example of sp2 C‒H metalation using triphenyl aluminium.

After graduating from Michigan in 1963, Bill studied organoboron and organoberyllium compounds as a post-doctoral scholar in the laboratory of Professor Thomas Wartik at Penn State University. He was hired only one year later as an assistant professor at the newly-formed University of California at Santa Barbara, in the fall of 1964.

Notable contributions

The training Bill had gained during his formative graduate and post-doctoral years set him on the path to become a die-hard synthetic organometallic chemist; the type that refuses to believe that any structure that can be imagined and scribbled on the back of an envelope cannot also be made and isolated…somehow.

In his early years in Santa Barbara, Bill presented the first example of an organometallic Wittig reaction, demonstrated by the reaction of MnBr(CO)5 with (Ph3P2)C to afford a Mn=C=C=PPh3 ylide. Bill and his group later used (Ph3P)2C to prepare several other examples of acetylenic organometallic complexes. Notably, in a 1974 collaborative paper with R. F. Reichelderfer, it was shown that treatment of (COD)IrPF6 with (Ph3P)2C resulted in the oxidative addition of an sp3 C‒H bond of the coordinated cyclooctadiene ligand directly to the metal centre. This was the first example of a C‒H bond insertion of a coordinated ligand by a transition metal; it was not until the following decade that elegant work by Crabtree and several others elevated the profile of this powerful reaction type.

The hexaphenylcarbodiphosphorane species (Ph3P)2C used in Bill’s early chemistry had been discovered a decade earlier by Ramirez. The compound itself was found to exhibit triboluminescence, the mechanism and origin of which was not well understood at the time. Large yellow crystals of (Ph3P)2C grown from diglyme were found to emit a bright yellow-green light when touched. In 1977, Bill published a paper in collaboration with Jeffrey Zink (UCLA) that presented a detailed spectroscopic analysis of (Ph3P)2C and other aromatic triboluminescent materials. The conclusions of this study suggested that light emission was caused by a combination of frictional electrification, piezoelectrification, and internal electrification at shear planes within individual crystals.

In the late 1970s, Bill and his group had gained an interest in the use of what would come to be known as pincer ligands for the formation of coordinatively unsaturated complexes with bulky groups around the metal atom, as a way to promote C−H metalation of hydrocarbons. In 1980, at the Biennial Inorganic Chemistry Symposium in Guelph, Canada, Bill presented the X-ray structure and reactivity of a 14-electron Rh(I) PCP-pincer complex. The dehalogenated Rh(I) centre readily formed adducts with both aromatic and aliphatic hydrocarbons. The subsequent publication of this work included Craig Jensen as a co-author (now on the faculty at the University of Hawaii), who was an undergraduate student in Bill’s group at that time. A number of additional reports of the reactivity of other pincer complexes were published by Bill’s group shortly after, and this body of work forms an integral part of the early history of pincer chemistry.

For the next two decades, Bill worked alongside other major researchers, notably including Alan Goldman (Rutgers) and Gerard van Koten (Utrecht University) to further advance the chemistry of pincer complexes, which continues to attract significant attention to this day. The utility of pincer catalysts continues to break new ground. In 2001, the Kaska group published a communication in collaboration with Michael Hall (Texas A&M University) and Matthias Haenel (Max-Planck Institute) showing how a PCP-Ir(I) complex constructed using an “anthraphos” (1,8-substituted anthracene) ligand led to a thermally stable catalyst for alkane dehydrogenation.

In the later phase of Bill’s career, he gained an interest in the synthesis of proton sponge materials and super bases, using fused N-heterocyclic ligands based on quino[7,8-h]quinolines. In collaborative work with his long-time colleague at UCSB, Galen Stucky, and Ferdi Schüth (Max-Planck Institute), the first examples of transition metal coordination complexes of these so-called proton sponges were reported in 2001. These complexes were unusually thermally and chemically stable, due to the unique conformational bending of the qunioline backbone.

Over the past five decades, the Kaska lab has produced many highlight results in a number of fields of molecular inorganic chemistry. The works contributed to this celebratory compilation build upon the legacy of Bill Kaska’s work, his teaching, and his friendships with others in the community.

Articles in this themed collection

While this narrative is intended to summarise just a few of the highlights of Bill’s research career, his former Ph.D. mentor John Eisch has authored a terrific editorial entitled, “Emergence of electrophilic alumination as the counterpart of established nucleophilic lithiation: an academic sojourn in organometallics with William Kaska as a fellow traveler,” which provides a comprehensive, personal account of their seminal work in organoaluminium chemistry.

Research in the arena of C‒H bond activation has continued to attract much interest. This interest is driven not only by a fundamental curiosity to discover new chemical reactivity, but also to solve important energy-related problems involving hydrocarbon activation, in drug development, and in a host of other homogeneously-catalysed processes. This is abundantly clear from the new work on display in this themed collection.

In close relation to some of the seminal work published by Bill and his co-workers on the reaction chemistry of Group 9 PCP-pincer complexes, this themed collection features new work by Professors Alan Goldman, Karsten Krogh-Jesperson (University of Rochester) and co-workers, who present an elegant combined experimental and theoretical study of the C‒H versus C‒C bond activation selectivity observed between a PCP-Ir catalyst and biphenylene. They describe how and why biphenylene tends to initially undergo C‒H oxidative addition to the PCP-Ir centre, but upon heating can undergo a rearrangement that results in C‒C activation to yield a less sterically-hindered, cyclometallated species.

A collaborative experimental and theoretical study of an unusual PCP-Ir system is reported by the groups of Professors Johannes Wielandt (Karl-Franzens University) and Hermann Mayer (University of Tuebingen). They employ a cycloheptatriene-based PCP ligand scaffold; cyclometallation of this ligand with Ir(CO)3Cl requires activation of an sp3 C‒H bond. Upon standing in tetrahydrofuran, the complex undergoes isomerisation via transfer of the remaining sp3-H onto the ligand backbone. This results in three new isomers, each containing a more common sp2-metalated arrangement at Ir, and a partially saturated ligand backbone. Continuing the theme of cyclometallated Ir-based complexes, Professors Roy Periana, Brian Hashiguchi and co-workers from the Scripps Research Institute describe the use of a robust NNC-Ir complex that is active for the oxidation of methane, benzene and other hydrocarbons in the presence of trifluoroacetic acid.

Professor Gerard van Koten and co-workers describe a series of new NCN-Pt pincer complexes that feature 4-(E)-[(4-R-phenyl)imino] methyl substituents, which induce important electronic effects on the Pt(II) sites. A combination of multinuclear NMR studies have been used to elucidate the electronically-tuneable behaviour of this unique family of Pt-pincer complexes. The group of Professor Paul Hayes at the University of Lethbridge describe how Y and Sm complexes of their bis(phosphinimie) carbazolate and pyrrolate NNN-pincers undergo varying patterns of ortho-metalation toward N– and P-aryl substituents accompanied by reductive elimination of silanes.

This collection also features a number of examples of complexes based on neutral pincer ligands that display a range of C‒H bond activation reactivities. Professor Dan Mindiola and his team at the University of Pennsylvania present a PNP-Ti pincer complex capable of performing catalytic dehydrogenation of cyclic and linear alkanes to cleanly yield the corresponding alkenes. They elucidate a mechanism for this surprising reactivity, which involves the formation of a Ti(III) alkylidyne intermediate that can effect a double C‒H bond activation. The group of Professor Karen Goldberg at the University of Washington present the synthesis, structures and reactivities of PtMe2 complexes of a bidentate P(X)N ligand (X = O, NH). The N-donor pyridyl substituent is sufficiently hemilabilile to allow for cyclometallation and reductive elimination of CH4. Professor Michael Rose and his team at the University of Texas at Austin present a family of Mn-carbonyl complexes prepared using novel neutral NNS Schiff base ligands, in which the thioether-S donors also exhibits hemilability.

C‒H activation by early transition metal complexes also features in this collection; Professors John Arnold and Robert Bergman from the University of California demonstrate the cyclometallation of a (BDI)Ta(=NtBu)Me2 complex, which undergoes reaction with H2 gas to provide a dihydride intermediate by sigma-bond metathesis. Interestingly, a low-valent Ta(III) species is also generated under certain conditions, which undergoes C‒N bond cleavage of the BDI ligand to give a new Ta(V) cyclometallated species. Meanwhile, Professor Gerhard Erker and co-workers report the reaction of B(C6F5)3 toward zirconacycloallenoids. They show how strongly Lewis basic B(C6F5)3 species undergo insertion into the Zr metallacycles to give unusual zwitterionic allenyl/borate complexes.

Professor Manuel Soriaga and co-workers from Texas A&M University and the California Institute of Technology provide an example of heterogeneous C‒H bond activation and metalation, performed on solid Pd electrode surfaces. In this interesting and extensive study, high-resolution surface-sensitive techniques are combined with DFT calculations to elucidate the mechanism of metalation of 2,3-dimethylhydroquinone on ordered Pd(111) and polycrystalline Pd electrode surfaces. It is shown that the orientation of the quinone (side-on, or flat) as it undergoes oxidative chemisorption to the Pd surfaces is directly related to the relative quinone concentration.

Professor Carl Redshaw and collaborators from the Universities of Hull, Loughborough and East Anglia present the use of a family of new mono-, di- and tri-nuclear Zn(II)-calixarene complexes for the ring-opening polymerization of lactones and lactides. The group of Professor Dominic Wright at the University of Cambridge (where Bill Kaska spent a sabbatical in 2004) present the synthesis and crystal structures of an extended family of new ML2 sandwich complexes (M = Ca(II), Mn(II), Fe(II)), using a tripodal NNN monoanionic donor ligand (L = tris(2-pyridyl)aluminate).

The themed collection is nicely concluded by work from the group of Professor Bruce Lipshutz – a long-time friend and colleague of Bill Kaska in the Department of Chemistry & Biochemistry at UC Santa Barbara – who report the Cu(OAc)2-catalysed hydrophosphination of styrenes. Notably, this powerful organic conversion has been achieved under green conditions using water as the solvent, at room temperature; the reaction proceeds in high yield for a broad range of aromatic substrates.

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The 13th Ferrocene Colloquium

Dalton Transactions was proud to sponsor The 13th Ferrocene Colloquium, which took place from 22–24 February 2015 in Leipzig, Germany.

More than 120 participants, from Germany and from abroad, came to Leipzig to hear impressive talks and to present their latest results in the field.

The Colloquium also featured a poster session, which formed an integral part of the meeting, fostering the informal exchange of latest developments in this field of chemistry.

Congratulations to the participants and meeting organisers for making the Colloquium a great success!

The recipient of the award for the best oral presentation given by a young academic (postdoc)

The recipient of the Dalton Transactions award for
the best oral presentation given by a young academic (postdoc)

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Workshop on Flexibility and Disorder in Metal–Organic Frameworks

The Workshop on Flexibility and Disorder in Metal–Organic Frameworks will take place in Paris, France, from 3-5 June 2015.

Workshop on Flexibility and Disorder in Metal–Organic FrameworksOrganised by Anthony Cheetham (FRS), Alain Fuchs, Thomas Bennett, and François-Xavier Coudert, with funding from the European CECAM, as well as the French CNRS and Chimie ParisTech, this workshop will gather together distinguished speakers from a diverse range of disciplines to provide numerous viewpoints on topics including:

  • The Mechanical Behavior of MOFs
  • Amorphization and Nanostructures
  • Computational Approaches to Flexbility and Disorder
  • Defects and Disorder as Virtues

Further detail on the workshop’s aims and topics can be found here

Interested in this subject area? Submit your work to the Dalton Transactions themed issue on Flexibility and Disorder in Metal-Organic Frameworks: See our Call for papers and contact us for more information

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Call for papers: Themed issues

Dalton Transactions coverWe are delighted to announce four new Dalton Transactions themed issues:

Metallodrugs: Activation, Targeting and Delivery
Deadline: 12th April 2016
Guest Editors: Professor Dr Nils Metzler-Nolte (Ruhr-Universität Bochum), Professor Dr Zijian Guo (Nanjing University)

In 1965, a seminal paper by Barnett Rosenberg appeared in Nature, describing the anti-proliferative properties of a very simple inorganic compound, now known to all of us as Cisplatin. This discovery, and the subsequent clinical approval of Cisplatin, has led to thousands of papers, and it has arguably initiated the field of medicinal inorganic chemistry. Now, 50 years after Rosenberg’s discovery, the field has matured and, beyond Cisplatin, many other compounds have been explored for their anti-proliferative activity. Moreover, chemical creativity has shifted from the mere discovery of new active agents, and elucidation of their mode of action (as difficult as that may be at times) to issues such as delivery of anti-proliferative agents to cancer cells, activation of inorganic prodrugs, and very creative approaches to targeting malignant cells exclusively.

A Themed Issue of Dalton Transactions now seeks to explore these frontiers in the art of medicinal inorganic chemistry. Crucially, the Issue will aim to provide an overview of current progress in three focal points of inorganic drug development: activation (for example, by light, enzymes or external stimuli), targeting (that is, bioconjugates, using the EPR effect, and so on) or selective delivery (to cancer cells or intra-cellularly, by nanoparticles or other carrier systems, and so on).

Although certainly important, the discovery of new compounds or elucidation of a mode of action are not topics for this issue — but Dalton Transactions is of course an excellent place for dissemination of such results in a regular Paper.

Small molecule activation
Deadline: 30th April 2016
Guest Editors: Professor Martin Albrecht (University of Bern), Professor Eric Clot (University of Montpellier), Professor Giulia Licini (University of Padova), Professor Barbara Milani (University of Trieste)

Small molecule activation constitutes one of the main frontiers of inorganic and organometallic chemistry, with much effort directed towards the development of new processes for the selective and sustainable transformation of abundant small molecules such as H2O, NH3, N2, O2, CO, or CO2 into high-value chemical feedstocks and energy resources.

This themed issue will focus on homogenously catalysed activation of small molecules, as well as stoichiometric reactions that further our understanding towards such ends. We invite submissions covering any relevant aspect of small molecule activation including: organometallic chemistry, (electro)catalysis, photochemistry, mechanistic studies, spectroscopy, synthesis, and developments in materials science.

Reactions Facilitated by Ligand Design
Deadline: 10th May 2016
Guest Editor: Professor Jason Love (The University of Edinburgh)

This issue will focus on transformations involving inorganic complexes where a ligand design approach has been used to produce a demonstrable change in reactivity. Papers can be submitted from any area of inorganic or organometallic chemistry, including catalysis, small molecule activation, C–X bond activation, bioinorganic chemistry and supramolecular chemistry. Ligand classes could include pincers, carbenes, macrocyclic ligands, phosphines or metallocenes, with approaches for goal-oriented ligand design involving aspects such as redox non-innocence, steric hindrance, secondary coordination sphere effects and manipulation of Lewis pairs.

Molecular Spintronics: The role of Coordination Chemistry
Deadline: 17th May 2016
Guest Editors: Professor Eugenio Coronado (University of Valencia), Professor Masahiro Yamashita (Tohoku University)

This issue intends to show the impact of coordination chemistry in the emerging field of Molecular Spintronics.

Coordination chemistry provides many examples of molecules that can be useful in this field: from metal complexes that can be incorporated into spintronic devices, as spin collectors or spin filters, to magnetic molecules that can behave as bits of memory or even as spin qubits.

This issue will cover the three different facets of the field, namely: 1) the use of molecules in the development of a new generation of spintronic devices; 2) the miniaturization of the device to reach the single-molecule limit (molecular nanospintronics); and 3) The search for molecular spin qubits of interest in quantum computing.

In this multidisciplinary field, chemists work in close interaction with solid-state physicists, including theoreticians as well as experimentalists, and materials scientists. Contributions coming from the three scientific communities in which these scientists are integrated – Spintronics, Molecular Electronics and Molecular Magnetism – are expected.

Does your research fit into any of these subject areas? If so, we would welcome your contribution. Please see below for further details on how to submit:

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 normal peer review and inclusion in the themed issue will be at the discretion of the Guest Editors. Please indicate in your submission which themed issue you would like to be considered for.

Interested in submitting  paper? Please contact us for more information

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A collection of papers in memory of Lord Jack Lewis

We are very pleased to announce the launch of a commemorative article collection in memory of Lord Jack Lewis.

Lord Jack Lewis, who recently died aged 86, was the 1970 Inorganic Professor at Cambridge for 25 years from 1970 to 1995. Highly energetic and extremely talented, he was among a small band of pioneers who revolutionised inorganic chemistry and must be regarded as one of the true founding fathers of the modern field. As a tribute to Jack, Brian F. G. Johnson, William. P. Griffith, Robin J. H. Clark, John Evans, Brian H. Robinson and Paul R. Raithby have chosen a selection of his papers that they feel demonstrate Jack’s interest and contribution to inorganic chemistry over the course of his career, introducing them in a special Editorial in Dalton Transactions.

We very much hope that you will enjoy this commemorative article collection.

To access all of the Lewis articles and the Editorial, go to: http://rsc.li/lewis.

Lord Jack Lewis

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