Author Archive

Hot paper: Hierarchical activated carbon nanofiber webs with tuned structure fabricated by electrospinning for capacitive deionization

Capacitive deionization (CDI) is the primary runner-up technology to challenge the well-established traditional technologies such as the reverse osmosis and the electrodialysis for producing fresh water from sea water. The performance of CDI is mainly governed by the carbon electrode properties such as the electric conductivity and the pore size distribution, and this remains a bottle-neck challenge for the CDI technique up to now, and needs to be addressed urgently. In this paper, Gang Wang, Jieshan Qiu and co-workers at Dalian University of Technology in China report a new strategy for fabricating hierarchical carbon electrodes with tuned structure for CDI by electrospinning, which shows a high desalination performance in an order as high as 10 mg salt/g carbon. The novel approach may pay a new way for a new technology for producing fresh water from salted water.

(Text supplied by author)

(J. Mater. Chem., 2012, 22, 21819-21823). Free to read for a short time.

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This week’s hot paper – Read for free until 26th October

Hydrophobic cellulose nanocrystals modified with quaternary ammonium salts

Cellulose nanocrystals or CNCs are environmentally friendly biomaterials whose surface functionality can be tailored in order to improve their performance.  In this hot paper, Zhou and co-workers describe a simple and flexible route to produce CNCs bearing high carboxylate content.  A new environmentally friendly method for the surface modification of the produced CNCs is reported.  Modifying the surface of the CNCs using a range of quaternary ammonium salts via ionic exchange in aqueous solution, gives a series of CNCs that can be redispersed and individualised in organic solvents.  These CNCs can be dried from solvent to form well-disperesed nanocomposites.

(J. Mater. Chem., 2012, 22, 19798–19805)

A green-yellow emitting oxyfluoride solid solution phosphor Sr2Ba(AlO4F)1-x(SiO5)x:Ce3+ for thermally stable, high color rendition solid state white lighting

LEDs are increasing in use over traditional incandescent or fluorescent light sources because of their reduced energy demands.  Solid state white lighting devices offer many advantages compared to these conventional sources such as longer lifetimes and no need for mercury.  Most common white lighting phosphors strongly absorb blue light, in this hot paper, Seshadri et al. report a green-to-yellow emitting phosphor solid solution.  The composition (x) of the phosphor can be altered to easily tune the colour of the phosphor between near-UV excitation and green/yellow emission wavelengths which are optimal for white lighting applications.

(J. Mater. Chem., 2012, 22, 18204–18213)



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Another hot paper!

Atomic layer deposition of anatase TiO2 coating on silica particles: growth, characterization and evaluation as photocatalysts for methyl orange degradation and hydrogen production

Photocatalysis using various forms of titanium dioxide is well known, but many of these forms, such as TiO2 thin films or the commercially available Degussa P25 powder, have small particle sizes which makes recovery and handling a challenge. In this hot paper, Rosseinsky and co-workers utilise TiO2–SiO2 core-shell particles to produce an efficient photcatalyst which can be easily separated from aqueous solution. They use atomic layer deposition to deposit anatase TiO2 layers onto SiO2 support particles. The particles can photocatlyse methyl orange with nearly ten times greater efficiency compared to P25 when normalised for TiO2 content.

(J. Mater. Chem., 2012, 2, 20203–20209). Read for free until October 26th!

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This week’s hot papers – Read for free until 19th October

High throughput theory and simulation of nanomaterials: exploring the stability and electronic properties of nanographene

Computational modelling of structure-activity relationships in nanomaterials can be challenging.  Snook and co-workers have developed a high throughput method by using a combinational approach with electronic structure simulations to give a general method for predicating and understanding the properties of graphene.  They describe the calculation for a predictive property matrix of graphene quantum dots using SCC-DFTB. Alternative graphene structures with AC- and ZZ-edges are able to be modelled without increasing the methodological complexity.  This hot paper shows that a database of electronic properties of graphene can be built up, and when a particular property is desired it can be readily obtained.

(J. Mater. Chem., 2012, 22, 18119–18123)


Living materials from sol–gel chemistry: current challenges and perspectives

In this Highlight article, Marine Blondeau and Thibaud Coradin discuss the use of sol–gel encapsulation technology for biomedical and environmental applications.  They discuss the topic from a materials point-of-view, outlining the key points of the encapsulation process and the formation of gels from sols.  The challenges, possibilities and advances in the field are also discussed.

(J. Mater. Chem., 2012, DOI: 10.1039/C2JM33647B, Advanced Article)


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Journal of Materials Chemistry becomes three news

Following on from our recent announcements regarding our new journals, Journal of Materials Chemistry A, B and C, we are really looking forward to 2013 when the first issues will be published. In the words of Seth Marder, the current Chair of Journal of Materials Chemistry Editorial Board:

‘This announcement represents a big step for RSC and the Materials portfolio.  I look forward to working very closely with all of you and the RSC to continue to strengthen the quality of scope of the materials portfolio over the coming years.  We have come a long way, but still have much work in front of us as we continue in our efforts to provide the materials community exciting places to publish their work!’

Please contact us with any questions regarding submitting your work to the new journals:

Journal of Materials Chemistry A

Journal of Materials Chemistry B

Journal of Materials Chemistry C

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Part-Themed Issue on ‘Materials for Biosurfaces’ now published

The 2012 Journal of Materials Chemistry part-themed issue on ‘Materials for Biosurfaces’ has now been published online. View the full issue here.

Guest Editors for the themed issue were Professor Christ Ober, Ms. M. Elizabeth Welch and Dr Christian Ohm and their Editorial can be found here. A number of reviews were also published:

Utilizing click chemistry to design functional interfaces through post-polymerization modification
Rachelle M. Arnold, N. Eric Huddleston and Jason Locklin
Biomimetic 3D self-assembling biomicroconstructs by spontaneous deformation of thin polymer films
Leonid Ionov
Cell and cell sheet recovery from pNIPAm coatings; motivation and history to present day approaches
Maria E. Nash, Deirdre Healy, William M. Carroll, Carlos Elvira and Yury A. Rochev
Switchable adhesion by chemical functionality and topography
Marleen Kamperman and Alla Synytska

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This week’s hot articles – Read for free until 5th October

Quiescent water-in-oil Pickering emulsions as a route toward healthier fruit juice infused chocolate confectionary

Finding alternatives to the calorie-rich triglyceride fats found in chocolate are a high priority for chocolate manufacturers. In this hot paper, Bon and co-workers introduced fruit juice into chocolate by forming stable water-in-oil emulsions. The infused fruit juice replaces up to 50 % by weight of the total fat content in the chocolate. The approach uses a quiescent Pickering emulsion fabrication strategy to infuse the fruit juice in the form of emulsion droplets. White, milk and dark chocolate is produced using this method, which can also be applied in other systems such as aqueous acetic acid dispersed in sunflower oil.

(J. Mater. Chem., 2012, DOI: 10.1039/C2JM34233B, Advanced Article)

Electrospinning of in situ crosslinked collagen nanofibers

The high porosity and large surface area of non-woven collagen fibers makes them excellent scaffolds for tissue engineering and regenerative medicine. When collagen is regenerated by electrospinning the fibers are not resistance to water, thus undergo dissolution and have poor mechanical firmness. In this hot paper, Wnek and co-workers report a single-step method of electrospinning crosslinked collagen fibers in situ. The crosslinked fibers exhibited swelling when placed in water, in contrast to the dimensional shrinking often seen in post-crosslinked electrospun collagen. Importantly, the porosity of the fibers was also maintained during water treatment. The team suggest the crosslinking technique could also be applied to other biomaterials for tissue engineering.

(J. Mater. Chem., 2012, DOI: 10.1039/C2JM31618H, Advanced Article)

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