Hot Article – Page 6

Archive for the ‘Hot Article’ Category

Read NJC’s Themed Issue on Dendrimers

01 Feb 2012

If you work with dendrimers, or are interested in learning more about these fascinating molecules, then don’t miss NJC‘s themed issue on dendrimers that has recently been published on-line (February 2012 issue).

Guest-edited by renowned expert Jean-Pierre Majoral, this Dendrimers II issue follows our highly successful first Dendrimers issue of July 2007. In his editorial prefacing this latest issue, Jean-Pierre defines the concept of “dendrimer space” (click to read it free)

The three short and topical Focus reviews look at dendrimers as bactericides, in biomedical applications and in neurodegenerative diseases. The ten longer Perspective reviews cover the synthesis and properties of dendrimers, materials that incorporate dendrimers, and a variety of applications of dendrimers in biology and medicine.

Eighteen original research works complete the issue. I’ve selected five of these contributions, highly ranked by the reviewers, as Hot Papers; these will be free to access during the month of February (just click on the DOIs below).

• 5 Hot Papers

The biodistribution of maltotriose modified PPI dendrimers, with particular attention to the BBB crossing, was studied in a collaboration of Polish and German groups, revealing that the dendrimers were able to enter rat’s important organs, including the brain.

“The biodistribution of maltotriose modified poly(propylene imine) (PPI) dendrimers conjugated with fluorescein—proofs of crossing blood–brain–barrier” by A. Janaszewska, B. Ziemba, K. Ciepluch, D. Appelhans, B. Voit, B. Klajnert and M. Bryszewska, New J. Chem., 2012, 36, 350-353. DOI: 10.1039/C1NJ20444K

The group of Rainer Haag (Freie Universität Berlin) looked at fluorous polyglycerol dendrons and dendrimers, which are used to form highly stable aggregates in the micro- to nanometer range in water.

“Supramolecular behavior of fluorous polyglycerol dendrons and polyglycerol dendrimers with perfluorinated shells in water” by M. Zieringer, M. Wyszogrodzka, K. Biskup and R. Haag, New J. Chem., 2012, 36, 402-406. DOI: 10.1039/C1NJ20741E

Steven Zimmerman (University of Illinois at Urbana Champaign), in collaboration with Rainer Haag, used hyperbranched polyglycerols to solubilize perylenediimide (PDI) and improve its fluorescent properties.

“Synthesis and properties of fluorescent dyes conjugated to hyperbranched polyglycerols” by A. T. Zill, K. Licha, R. Haag and S. C. Zimmerman, New J. Chem., 2012, 36, 419-427. DOI: 10.1039/C1NJ20476A

In the contribution by Bertrand Donnio and colleagues at the IPCMS in Strasbourg, two libraries of segmented block co-dendritic supermolecules bearing semi-fluorinated chains and lipophilic poly(benzyl ether)-based wedges form unusual liquid crystalline mesophases, whose supramolecular organization is tuned by the dendritic connectivity of both compartments.

“Self-assembly and liquid-crystalline supramolecular organizations of semifluorinated block co-dendritic supermolecules” by I. Bury, B. Heinrich, C. Bourgogne, G. H. Mehl, D. Guillon and B. Donnio, New J. Chem., 2012, 36, 452-468. DOI: 10.1039/C1NJ20530G

A self-assembly strategy allowing the generation of homo- and hetero-nuclear metallodendritic materials is the result of a joint effort by several American groups at the University of Akron and Louisiana State University.

“Shape-persistent, ruthenium(II)- and iron(II)-bisterpyridine metallodendrimers: synthesis, traveling-wave ion-mobility mass spectrometry, and photophysical properties” by J.-L. Wang, X. Li, C. D. Shreiner, X. Lu, C. N. Moorefield, S. R. Tummalapalli, D. A. Medvetz, M. J. Panzner, F. R. Fronczek, C. Wesdemiotis and G. R. Newkome, New J. Chem., 2012, 36, 484-491. DOI: 10.1039/C2NJ20799K

Take a look at these hot papers while they are free to all, this month only!

• About the Covers

The paper by J.-L. Wang et al. is also the subject of the outside cover (shown at the top) featuring windmills and dendrimers, while the inside front cover (at right) illustrates the Perspective review by French researchers in Strasbourg and Lyon on dendrimers in medical imaging .

“Dendrimers in nuclear medical imaging” by C. Ghobril, G. Lamanna, M. Kueny-Stotz, A. Garofalo, C. Billotey and D. Felder-Flesch, New J. Chem., 2012, 36, 310-323. DOI: 10.1039/C1NJ20416E (available to subscribers only)

We invite you to browse the issue here, and if you are a subscriber, to read more about dendrimers from the world’s experts in the field. Enjoy!

Click to subscribe to NJC.

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Extended azaheterocycles: flat but not dull !

26 Jan 2012

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NJC Hot Articles: now available as Advance Articles on the web.

26 Jan 2012

New dyes for LCD color filters!

In this NJC hot paper the scientists in Korea (Jae Pil Kim and co-workers) report some new phthalocyanine and coronene derivatives designed for dye-based green liquid crystal display (LCD) color filters. Their thermal stability, optical properties, and solubility as the colorant materials for color filters were also investigated.

In addition, the synthesized six PC dyes and a benzopyrelene dye were successfully applied to the LCD color filters and showed superior optical properties than conventional pigment-based color filters.

Synthesis and characterization of thermally stable dyes with improved optical properties for dye-based LCD color filters by Jun Choi, Se Hun Kim, Woosung Lee, Chun Yoon and Jae Pil Kim, New J. Chem., 2012, Advance Article.

How to reduce the molecular dinitrogen to ammonia?

The problem is a classic of inorganic chemistry and the authors of this NJC hot paper (Chinnappan Sivasankar and co-workers) propose an interesting hypothetical approach to hydrogenating the complex. In general these reactions are mediated by a series of protonation and reduction steps. In this theoretical study, the authors propose a new methodology to reduce the molecular dinitrogen to ammonia in [WF(PH2(CH2)2PH2)N2] complex using some co-catalysts in organic solvents.

With the help of DFT calculations the thermodynamic feasibility has been studied in three organic solvents (heptane, toluene and THF). The thermodynamic barriers for all the fundamental steps in the proposed catalytic cycle revealed that N2 can be reduced by H2 in all proposed organic solvents and that toluene would be the better choice of solvent than THF and heptane.

Hydrogenation of dinitrogen to ammonia in [WF(PH₂(CH₂)₂PH₂)₂N₂] using H₂: Insights from DFT calculations by Perumal Balu, Sambath Baskaran, Venu Kannappan and Chinnappan Sivasankar, New J. Chem., 2012, Advance Article, DOI: 10.1039/C2NJ20929B, Letter.

Interested in reading further? Why not download the full articles now, FREE to access for a period of 4 weeks!

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Hot article : Why chromium Cr3+-doping is a catastrophe for catalysis.

20 Jan 2012

In this NJC paper, Jean-Marie Herrmann (Institute of Researches on Catalysis and Environment of Lyon, France) investigated the chromium-doping of titania to tentatively photo-sensitize titania in the visible region and demonstrated why this strategy has proven to be a disaster in terms of photocatalytic activity.

In this study, the author explained the photo-electrical behavior of a Cr3+-doped titania catalyst in comparison with pristine titania, the related strong inhibition of titania’s catalytic performances and generalized this detrimental effect to all kinds of cationic dopings, either of n-type and/or p-type.

Detrimental cationic doping of titania in photocatalysis: why chromium Cr3+-doping is a catastrophe for photocatalysis, both under UV- and visible irradiations Jean-Marie Herrmann New J. Chem., 2012, Advance Article DOI: 10.1039/c2nj20914d

Interested in reading further? Why not download the full article now, FREE to access for a period of 4 weeks!

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NJC Hot Articles: our latest selection!

04 Jan 2012

Check out NJC’s latest Hot Articles now available as Advance Articles on the web:

Dithiolene complexes as metallo-ligands

In this NJC Hot article Formigué and co-workers (research collaboration within France, Italy and Poland) describe the synthesis and behaviour of complexes between Ni(II) ion and crown ethers incorporating a dithiolene coordination motif. A nickel dithiolene complex substituted with crown ether cyclic moieties incorporating four O atoms, abbreviated as [Ni(S2O4)2]1,0, is isolated in its radical anionic (as Na+ salt) and neutral forms.

The results presented in this paper show that dithiolene complexes substituted with crown ether moieties, can be used as metallo-ligands toward 3d magnetic metal cations for the elaboration of more complex magnetic systems. This work opens new perspectives to the preparation of more complex magnetic structures applying a trivalent metal cations such as rare-earth cations as well as smaller crown-ether moieties.

Dithiolene complexes as metallo-ligands: a crown-ether approach by Alessia Famengo, Dalice Pinero, Olivier Jeannin, Thierry Guizouarn, Lidia Piekara-Sady and Marc Fourmigué; New J. Chem., 2012, Advance Article; DOI: 10.1039/C1NJ20870E, Paper

Purification of double-walled carbon nanotube macro-films

The authors of the next NJC Hot article, J. N. Wang and co-workers (China) present a new, interesting concept for macroscopic carbon nanotube films purification. They use thermal reduction using NH4Cl as reducing agent and gas-phase sublimation instead of liquid-phase purification with acids.

The most important advantage of this method over previous oxidation in acid is that nanotubes do not come into contact with potentially damaging acids, and thus the morphology and integrity of the macroscopic film are maintained.

Purification of double-walled carbon nanotube macro-films by Yun Chen, Shi Qing Xu and Jian Nong Wang; New J. Chem., 2012, Advance Article, DOI: 10.1039/C1NJ20866G, Letter

Glycodendrimers as functional antigens and antitumor vaccines

In this NJC Perspective article, Roy and Shiao (University of Montreal, Quebec, Canada) give an excellent and timely overview of the application of glycodendrimers in the field of actively pursued vaccine candidates against tumor associated carbohydrate antigens.

This perspective is composed of two parts, one describing the present state of the art of glycodendrimers, and another one presented all recent advances in glycoderived cancer vaccine. This article is part of the themed issue Dendrimers II, guest-edited by Jean-Pierre Majoral, to be out in the February issue of NJC.

Glycodendrimers as functional antigens and antitumor vaccines by Tze Chieh Shiao and René Roy; New J. Chem., 2012, Advance Article; DOI: 10.1039/C2NJ20873C; Perspective.

Interested in reading further? Why not read by accessing the full article now! This “Hot article” will be free to access for a period of 4 weeks.

If you have some of your own exciting, high impact research to publish then consider submitting your manuscript to NJC, via our online submission system.

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Hot article: Multifunctional lanthanide-organic octahedra heterogeneous catalysts.

06 Dec 2011

Scientists in China have designed and prepared new heterogeneous catalysts based on the assembled metal–organic polyhedra to exhibit efficient base-type and acid-type catalytic performances at the same time.

New channel-like and cage-like porous materials have been prepared through the packing and stacking of the amide containing lanthanide-based octahedra Tb–PT1 and Sm–PT1 featuring both Lewis acidic Ln3+ sites and basic amide group sites. Their catalytic properties have been validated in cyanosilylation reactions and aldol reactions, in a size-selective fashion through base-type and acid-type catalysis sites, respectively.

These crystalline molecular materials hierarchically assembled from semi-infinite metal–organic polyhedra are thus expected to be useful catalysts which could combine the advantage of a heterogeneous catalyst and the excellent size discrimination properties of the polyhedra in solution.

Catalytic performance of lanthanide molecular solids containing well-modified metal–organic octahedra by Xiao Wu, Zhihua Lin, Cheng He and Chunying Duan; New J. Chem., 2012, Advance Article DOI: 10.1039/C1NJ20736A, Paper

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Carbeniophospanes, a novel class of ligands.

29 Nov 2011

Y. Canac, R. Chauvin & co-workers (LCC, France) give an overview on the discovery, recent developments and prospects on carbeniophosphanes, and in particular of imidazoliophosphanes.

In this review is discussed the carbeniophosphanes preparation, their electronic vs. coordinative properties, their intrinsic reactivity but also the catalytic properties of carbeniophosphine complexes.

The versatile and unique characteristics of carbeniophosphanes addressed as part of this review make them potentially a novel class of phosphorus ligands for transition metals.

Carbeniophosphanes and their carbon → phosphorus → metal ternary complexes Yves Canac, Carine Maaliki, Ibrahim Abdellah and Remi Chauvin New J. Chem., 2012, Advance Article DOI: 10.1039/C1NJ20808J, Perspective.

Interested to know more? Why not read by accessing the full article now! This “Hot article” will be FREE to access for a period of 4 weeks.

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An unusual route to molecular magnets

22 Nov 2011

Oxidized phthalocyanines are widely used in the design of optical, magnetic and conducting materials.

In this NJC Letter, Dmitri V. Konarev and co-workers (Institutes of Problems of Chemical Physics and Solid State Physics, Russia) demonstrated that the reduction of phthalocyanines with strong metallocene donors like decamethylchromocene can also lead to the preparation of molecular magnets. In particular, the negatively charged iron phthalocyanine (Cp*₂Cr⁺)(Fe^IPc^–)(C₆H₄Cl₂)₄ is a soft ferrimagnet showing hysteresis with a small coercive ﬁeld and a bifurcation temperature of about 5 K.

This original strategy should allow the extension of the molecular-based magnet family by exploiting metal-containing and metal-free phthalocyanines.

“Structure and magnetic properties of ionic compound (Cp*2Cr+)·(FeIPc−)·(C6H4Cl2)4 containing negatively charged iron phthalocyanine”, Dmitri V. Konarev, Leokadia V. Zorina, Salavat S. Khasanov, El’za U. Hakimova and Rimma N. Lyubovskaya, New J. Chem., 2012, Advance Article, DOI: 10.1039/C1NJ20858F.

Interested to know more? Why not read by accessing the full article now! This “Hot article” will be FREE to access for a period of 4 weeks.

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A simple one-step method for preparing graphene oxide microspheres

18 Oct 2011

In this NJC paper, Aharon Gedanken and co-workers (Institute of Nanotechnology and Advanced Materials, Israel) have prepared stabilized liquid-filled microspheres of graphene oxide, by applying ultra-sonic power to a biphasic system.

By using two dyes, the authors were able to show that the microsphere’s core has mostly a hydrophobic environment due to organic solvents though a polar environment was also measured at the microsphere’s core, which increased close to the microsphere edge that was attributed to the presence of graphene oxide sheets and water molecules.

Graphene oxide microspheres prepared by a simple, one-step ultrasonication method Matias Sametband, Ulyana Shimanovich and Aharon Gedanken New J. Chem., 2011, Advance Article DOI: 10.1039/C1NJ20738E

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How green are Ionic Liquids?

17 Oct 2011

Because of their distinctive properties, in particular their negligible vapor pressure, ionic liquids have attracted increasing attention in many fields, including organic chemistry, electrochemistry, catalysis, physical chemistry. However, the toxicity including ecotoxicity of these so-called a “green solvent” has recently received broad attention.

In this NJC paper C. S. Pereira and co-workers (collaborative research work between the Universities in the UK and Portugal) have investigated the toxicity of quaternary phosphonium ionic liquids towards fungal conidia Aspergillus nidulans.

This interesting work reveals the mechanism of toxicity of the tetraalkylphosphonium chlorides, demonstrating that systematic elongation of the alkyl substituents result in generally higher toxicity. In this study, fluorescence microscopy is proposed as a direct method for assessing the impact of ionic liquids on the plasma membrane integrity.

Unravelling the mechanism of toxicity of alkyltributylphosphonium chlorides in Aspergillus nidulans conidia; Marija Petkovic, Diego O. Hartmann, Gabriela Adamová, Kenneth R. Seddon, Luís Paulo N. Rebelo and Cristina Silva Pereira; New J. Chem., 2011, Advance Article; DOI: 10.1039/C1NJ20470J, Paper

Interested to know more? Why not read by accessing the full article now! This “Hot article” will be Free to access for a period of 4 weeks.

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