Archive for June, 2011

Hot Articles: Microorigami–drug nanocarriers–porous media

 

microorigamiRead these Hot Articles for free until 8 July…

Tutorial review on soft microorigami: Polymer films which are able to fold and form 3D microstructures are important for optical materials, tissue engineering scaffolds and electronic devices. This review focuses on polymer-based systems and their fabrication, design and applicability for biotechnology. Leonid Ionov, Soft Matter, 2011, DOI: 10.1039/C1SM05476G

Nanocapsules for sustained drug release: The fabricated stable drug delivery systems for podrug nanocarriersorly water-soluble drugs exhibited a narrow size distribution, which makes them potential candidates for nanocarriers in cancer therapy. Surfactant structure was compared with nanocapsule stability and the number of polyelectrolyte layers required to create exetremely long-term sustained release of active molecules determined. Urszula Bazylińska, Renata Skrzela, Krzysztof Szczepanowicz, Piotr Warszyński and Kazimiera A. Wilk, Soft Matter, 2011, DOI: 10.1039/C1SM05395G

Improved mechanical properties for macroporous polymers: Highly permeable macroporous polymers were synthesised from a Pickering-MIPE template. The mechanical properties were much improved compared to porous media synthesised using conventional high internal phase emulsion (HIPE) templates. Vivian O. Ikem, Angelika Menner and Alexander Bismarck, Soft Matter, 2011, DOI: 10.1039/C1SM05272A

porous media

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Soft Matter Issue 11, 2011, out now!

Soft Matter issue 11 is out now!

You can read the full issue here…

 Issue 11

The paper featured on the outside front cover is ‘Self-consistent field theory for diblock copolymers grafted to a sphere’ by Bart Vorselaars, Jaeup U. Kim, Tanya L. Chantawansri, Glenn H. Fredrickson and Mark W. Matsen. The inside front cover highlights work by Hüseyin Burak Eral, Jolet de Ruiter, Riëlle de Ruiter, Jung Min Oh, Ciro Semprebon, Martin Brinkmann and Frieder Mugele: ‘Drops on functional fibers: from barrels to clamshells and back’.

Bin Su, Shutao Wang, Yanlin Song and Lei Jiang highlight their recent work on ‘Utilizing superhydrophilic materials to manipulate oil droplets arbitrarily in water‘ on the back cover of the issue. 

The following review articles are included in the issue:

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Soft Matter article highlighted in ChemistryWorld

Ionic liquid advance over saline-based lenses

Ionic liquids are the key to observing improved performance and wider temperature ranges for variable focus lenses over conventional saline alternatives, report scientists in China.

Electrowetting-based variable focus liquid lenses (EVFLL) have been used in mobile phones, barcode readers and other optical equipment, in which the conductive liquid inside the lenses is currently limited to saline. In applications such as these, saline can only work in a narrow temperature range as it may evaporate or freeze in extreme temperatures. The lenses also need to operate in a wide spectral range, but again saline is restrictive here as it becomes opaque in the near infrared region – not ideal for optical devices… Read the rest of the article here… 

Or for the original paper read here: Xiaodong Hu, Shiguo Zhang, Chao Qu, Qinghua Zhang, Liujin Lu, Xiangyuan Ma, Xiaoping Zhang and Youquan Deng, Soft Matter, 2011, Advance Article, DOI: 10.1039/C1SM05585B

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Top Ten most-read Soft Matter articles in April

The latest top ten most downloaded Soft Matter articles

 See the most-read papers of April 2011 here:

 

Self-assembly of amphiphilic peptides

I. W. Hamley, Soft Matter, 2011, 7, 4122-4138
DOI: 10.1039/C0SM01218A

Polymer composites with smart optical properties

Andrea Pucci, Ranieri Bizzarri and Giacomo Ruggeri, Soft Matter, 2011, 7, 3689-3700
DOI: 10.1039/C0SM01038C

Stimulus responsive nanogels for drug delivery

Liusheng Zha, Brittany Banik and Frank Alexis, Soft Matter, 2011, Advance Article
DOI: 10.1039/C0SM01307B

Suppressing the coffee stain effect: how to control colloidal self-assembly in evaporating drops using electrowetting

H. B. Eral, D. Mampallil Augustine, M. H. G. Duits and F. Mugele, Soft Matter, 2011, 7, 4954-4958
DOI: 10.1039/C1SM05183K

Morphology of polymer-based bulk heterojunction films for organic photovoltaics

Matthias A. Ruderer and Peter Müller-Buschbaum, Soft Matter, 2011, Advance Article
DOI: 10.1039/C0SM01502D

Cubic crystals from cubic colloids

Laura Rossi, Stefano Sacanna, William T. M. Irvine, Paul M. Chaikin, David J. Pine and Albert P. Philipse, Soft Matter, 2011, 7, 4139-4142
DOI: 10.1039/C0SM01246G

Janus interface materials: superhydrophobic air/solid interface and superoleophobic water/solid interface inspired by a lotus leaf

Qunfeng Cheng, Mingzhu Li, Yongmei Zheng, Bin Su, Shutao Wang and Lei Jiang, Soft Matter, 2011, Advance Article
DOI: 10.1039/C1SM05452J

Stimulus responsive core-shell nanoparticles: synthesis and applications of polymer based aqueous systems

Olivier J. Cayre, Nelly Chagneux and Simon Biggs, Soft Matter, 2011, 7, 2211-2234
DOI: 10.1039/C0SM01072C

Liquid marbles: principles and applications

Glen McHale and Michael I. Newton, Soft Matter, 2011, Advance Article
DOI: 10.1039/C1SM05066D

Self-assembled aggregates of dendritic-linear copolymers: vesicles and microspheres

Jiwen Wu, Hui Tang and Peiyi Wu, Soft Matter, 2011, 7, 4166-416
DOI: 10.1039/C1SM05085K

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Top ten 2010 continued…

This is the second in a series of blogs looking at the most cited articles in Soft Matter. The first part can be found here. The countdown continues with the top five in the top ten 2010.

At number 5… In fifth place, with 14 citations, is ‘Block copolymer multiple patterning integrated with conventional ArF lithography‘. As technology continues to miniaturise, patterning on the nanometre scale (sub 30 nm) is no longer just desirable, but a requirement for semiconductor devices and chips. In this article, Park et al. combine photolithography with the self-assembly of block copolymers to create patterns down to 20 nm in size.

Initially, the photoresist was patterned using the industry standard 193 nm ArF lithography to create an asymmetric pattern. An underlying polymer brush layer was then oxidised and the photoresist washed away. The result was a chemical asymmetric pattern of alternating neutral and polar stripes. The block copolymer was spun onto this and self-assembled to create arrays of standing cylinders aligned with the underlying pattern. Examples can be seen in the image above. These block copolymers were then used as templates to create arrays of nanodots and nanopillars. This method provides a simple way to pattern on the sub 20 nm scale and avoids multiple photolithography steps or switching to shorter wave-length light sources.

The citing articles all look at patterning on the nanoscale. One article worth highlighting is that of Lee et al. published in Adv. Funct. Mater. This article reviews tailored and self-assembly of carbon nanotubes and graphene to form 3D patterns. Park’s block copolymer templates offer a way to direct the growth of nanotubes into well-ordered arrays.  Graphene has also been used to chemically modify surface energy. Deposition of block copolymers onto these graphene films results in highly aligned perpendicular lamellae, which can then be used for patterning.

Difference is number and morphology of cells for soft and hard surfaces.

At number 4… Next up, with 15 citations, is ‘Spatially controlled hydrogel mechanics to modulate stem cell interactions‘. This is the third (but not final) appearance of hydrogels in the top ten 2010. The focus of the paper is on how hydrogel properties affect the spreading and proliferation of human mesenchymal stem cells. Understanding this behaviour has importance and relevance in tissue engineering and cellular behaviour in disease states.

The morphology and proliferation of the stem cells were seen to be highly dependent on the underlying hydrogel. Increased spreading and growth was seen for stiffer hydrogels. Wang et al. have gone on to show that stiffer surfaces also result in more organised cytoskeletons, more stable focal adhesion and faster migration of the stem cells. In addition, gene expression was seen to differ for cells cultured on soft and hard hydrogels. On the softer hydrogels, neuron specific proteins were expressed by the cells, while on stiffer hydrogels there were not. Instead the cells expressed myogenic proteins. Very recently, Huang et al. proposed a mechno chemical coupling model to explain the dependence of spreading and adhesion on substrate stiffness.

At number 3… In 3rd place is ‘Nematic phases of bent core mesogens‘ with 16 citations. This paper by Keith et al., looks at the chain-length and temperature dependence of the phase behaviour of bent core mesogens. These mesogens, derived from 4-cyanoresorcinol with terminal alkyl chins, display broad metastable nematic phase ranges at ambient temperatures and do not have smectic low temperature phases. The authors suggest that mixtures of these compounds may potentially give rise to bent-core materials with stable nematic phases at room temperature.

At number 2… In second place is ‘In pursuit of propulsion at the nanoscale‘ by Stephen Ebbens and Jonathon Howse with 20 citations. Both authors are both currently at the University of Sheffield, UK. This review article looks at the developments in self-propelling nano and micro-scale swimming devices, with emphasis on swimming transporters. Ideally these swimmers should operate independently, without an external stimulus. Ebbens and Howse focus on bi-metallic nano-rod swimmers, which have been demonstrated to transport cargo. This was also discussed in a mini-review by Pumera.

Tierno et al. have shown that paramagnetic catalytic microellipsoids can be guided using external magnetic fields. Their particles align along the field and are seen to travel perpendicularly to the field in an almost straight trajectory. For spherical particles this is not the case.  Sanchez et al. have developed autonomous hybrid biocatalytic microengines. These engines use enzymes as their catalysts and are able to achieve speeds of 10 body lengths per second. In a second paper, Sanchez et al. demonstrated the transportation of cells using microbots. However, while the microbots were self propelled, loading transporting and delivery of the cells was externally controlled. I should mention that the two papers by Sanchez discuss very different swimmers. It is clear that this is currently a very hot area or research, due in part to their wide ranging potential medical applications.

Number 1… And finally, at the top of the top ten 2010 is ‘Responsive reversible hydrogels from associative “smart” molecules‘, published online in February 2010. The review article by Constantinos Tsitsilianis looks at the reversible hydrogels through self-assembly and association mechanisms.

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