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Top 10 most-downloaded articles: April–June 2014

09 Sep 2014
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Take a look at the most-downloaded RSC Advances articles from the months of April, May and June 2014 and let us know what you think!

Size-controlled silver nanoparticles synthesized over the range 5–100 nm using the same protocol and their antibacterial efficacy
Shekhar Agnihotri, Soumyo Mukherji and Suparna Mukherji
RSC Adv., 2014,4, 3974-3983
DOI: 10.1039/C3RA44507K

Using a two-step deposition technique to prepare perovskite (CH3NH3PbI3) for thin film solar cells based on ZrO2 and TiO2 mesostructures
Dongqin Bi, Soo-Jin Moon, Leif Häggman, Gerrit Boschloo, Lei Yang, Erik M. J. Johansson, Mohammad K. Nazeeruddin, Michael Grätzel and Anders Hagfeldt
RSC Adv., 2013,3, 18762-18766
DOI: 10.1039/C3RA43228A

Graphene-based photocatalytic composites
Xiaoqiang An and Jimmy C. Yu
RSC Adv., 2011,1, 1426-1434
DOI: 10.1039/C1RA00382H

Synthesis of multicomponent sulfide Ag2ZnSnS4 as an efficient photocatalyst for H2 production under visible light irradiation
Kan Li, Bo Chai, Tianyou Peng, Jin Mao and Ling Zan
RSC Adv., 2013,3, 253-258
DOI: 10.1039/C2RA21481D

Engineered fluorescence tags for in vivo protein labelling
Zhipeng Wang, Xiaozhe Ding, Sijian Li, Jing Shi and Yiming Li
RSC Adv., 2014,4, 7235-7245
DOI: 10.1039/C3RA46991C

Copper-catalyzed aerobic alcohol oxidation under air in neat water by using a water-soluble ligand
Guofu Zhang, Xingwang Han, Yuxin Luan, Yong Wang, Xin Wen, Li Xu, Chengrong Ding and Jianrong Gao
RSC Adv., 2013,3, 19255-19258
DOI: 10.1039/C3RA43366H

Biosynthesis of natural products by microbial iterative hybrid PKS–NRPS
Katja Maria Fisch
RSC Adv., 2013,3, 18228-18247
DOI: 10.1039/C3RA42661K

Bioinspired self-cleaning surfaces with superhydrophobicity, superoleophobicity, and superhydrophilicity
Shunsuke Nishimoto and Bharat Bhushan
RSC Adv., 2013,3, 671-690
DOI: 10.1039/C2RA21260A

Nanoscale conductive niobium oxides made through low temperature phase transformation for electrocatalyst support
Kan Huang, Yunfeng Li, Litao Yan and Yangchuan Xing
RSC Adv., 2014,4, 9701-9708
DOI: 10.1039/C3RA47091A

Role of graphene/metal oxide composites as photocatalysts, adsorbents and disinfectants in water treatment: a review
Ravi Kant Upadhyay, Navneet Soin and Susanta Sinha Roy
RSC Adv., 2014,4, 3823-3851
DOI: 10.1039/C3RA45013A

Interesting in submitting to RSC Advances? You can submit online today, or email us with your ideas and suggestions.

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Total Food 2014

14 Aug 2014
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The Total Food 2014 Conference will be taking place from the 11th–13th November in Norwich, UK.

Total Food 2014 is the fourth in a series of international conferences which focus on the sustainable exploitation of agri-food co-products and related biomass, thereby helping to minimise waste.

Total food 2014 Conference, Norwich, UK November 2014Under the auspices of the Royal Society of Chemistry (Food Group), this three day event will provide an open forum to highlight recent developments and to facilitate knowledge transfer between representatives of the agri-food industries, scientific research community, legal experts on food related legislation and waste management, and consumer organisations. The 2014 conference will be run by the Institute of Food Research in collaboration with the COST Action Network TD1203 Food waste valorisation for sustainable chemicals, materials and fuels (EUBis), and will comprise plenary lectures, short talks, poster sessions, and focussed workshops. The conference is currently open for registration and abstracts can be accepted for poster presentation.

For more details about the conference and to register, please visit the website: http://www.ifr.ac.uk/totalfood2014/

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21st century bumps in the night

04 Aug 2014
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Posted on behalf of Sarah Brown, web writer for RSC Advances

To state the obvious, Louis Braille was a bit of a legend. Taking an existing idea, developing and simplifying it, he enabled those with visual impairments another level of independence. What adds to his profile as genius is that he wasn’t even appreciated in his own time.

The Braille system was based on a system known as ‘night writing’ invented by the fabulously titled Captain Charles Barbiere la Sierre for soldiers to communicate in the dark without having to turn on a light or talk. This comprised 12 dots in six rows, formed by indents into the back of a surface to create patterns of raised dots that could be scanned by touch. Louis Braille stripped this back to the system that we now recognise, of up to six dots in three rows. Apparently Barbiere took the hump at this and Braille’s peers at the school for the blind where he taught were reluctant to take it up until after his death. I detect a hint of jealousy.3D printing for better Braille - RSC Advances

As Wongjin Jo and co-workers, authors of a paper recently published in RSC Advances, point out, characters in Braille generally come in only one font size, with no distinctions for titles or paragraph text. Furthermore, the characters can become more difficult to detect if repeatedly depressed. The recent surge in the capabilities of 3D printing can help overcome these limitations and more by adding the ‘dots’ to surfaces, rather than indenting them. Using a thermoplastic polymer, layers of dots can be added to generate characters of varying sizes and thicknesses on various surfaces, with the potential to offer visually impaired people the ability to add braille characters as they require and for the circumstances they personally encounter.

To protect the characters and improve their durability, the authors used a thermal reflow process to improve the surface smoothness and adhesion to the platform it was built on.

The flexibility of 3D printers and their expected drop in costs as they become more ubiquitous furthers the work of Louis Braille and opens the world up a little wider for those with visual impairments.

Interested in finding out more? Read the full article using the link below:

3D printed tactile pattern formation on paper with thermal reflow method, Wonjin Jo, Hyun Kim, Jeong Sim Lee, Jeon Ju Lee and Myoung-Woon Moon, RSC Advances, 2014, 4, 31764

Sarah Brown Sarah Brown is a guest web-writer for RSC Advances. Sarah hung up her lab coat after finishing her PhD and post-doctorate in nanotechnology for diagnostics and therapeutics and now works in academic publishing. When not trying to explain science through ridiculous analogies, you can often find her crocheting, baking or climbing, but not all at once.
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Tracking complex reactions in space and time

31 Jul 2014
By .

Helen Bache writes about a hot RSC Advances article for Chemistry World

Scientists in Taiwan have put together a system that uses a computer screen and digital camera to obtain spatial, temporal and spectral information on reaction samples, with a set-up cost of just £400.

Pawel Urban who led the research at National Chiao Tung University, Taiwan, points out that ‘chemical processes occur in space and time, but few analytical methods provide both spatial and temporal information’. Most chemical reaction mixtures are also not homogeneous, but traditional spectral techniques for monitoring them assume homogeneity. Pawel believes it is important to look into the intrinsic non-uniformities which can affect the progress of chemical reactions

Read the full article in Chemistry World»

Read the original journal article in RSC Advances – it’s free to access until 10th September:
Spectral imaging of chemical reactions using a computer display and a digital camera
Kai-Ta Hsieh and Pawel L. Urban  
RSC Adv., 2014, 4, 31094-31100, DOI: 10.1039/C4RA04207G

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8th International Conference on Environmental Catalysis – ICEC 2014

08 Jul 2014
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The 8th International Conference on Environmental Catalysis (ICEC 2014) will be held in Asheville, North Carolina, USA between the 24-27 August 2014.

The conference aims to discuss technological challenges in environmental catalysis and the scientific programme will be based around the following main topics:

Sustainable and clean energy production
– Bio-fuel catalysis
– Fuel cells, electrolysis and solar fuels
– Fuel reforming
– Catalytic oxidation
– Photocatalysis
– Hydrotreatment of fuels
Emission control
– Mobile and stationary source emissions
– TWC, Lean de-NOx, and diesel emissions		 Indoor air cleaning
– Catalytic processes to clean indoor air (VOCs, PAH)
Water treatment
– Non-biodegradable organic oxidation
– Nitrates reduction
– Sludge removal
Green Chemistry
– Biomass to chemicals
– Catalytic conversion of CO2
– Environmentally friendly catalytic processes
– Photocatalysis

The conference programme will also include three Plenary lectures by:

  • Professor Masakazu Anpo (Osaka Prefecture University)
  • Dr Klaus Harth (BASF)
  • Professor Enrique Iglesia (UC Berkeley)

Advanced registration ends the 31st July 2014 – click here to register today.

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A real red alert for explosives

02 Jul 2014
By .

Susannah May writes about a hot RSC Advances article for Chemistry World

Scientists in Spain have developed a new material that changes colour around air- or waterborne TNT. The chemical, which could be used to make intelligent clothing, alerts users to the presence of the explosive. It may prove lifesaving in former war zones, and invaluable in anti-terrorism investigations.

Read the full article in Chemistry World»

Read the original journal article in RSC Advances – it’s free to access until 1st August:
Involuntary graphene intake with food and medicine
Manav Saxena and Sabyasachi Sarkar  
RSC Adv., 2014, Accepted Manuscript, DOI: 10.1039/C4RA04022H, Paper

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Getting down to the beer bones of it

25 Jun 2014
By .

Posted on behalf of Sarah Brown, web writer for RSC Advances

‘Waste not, want not’ my mother dearest would say, a strong proponent of cling-film and pourer of scorn on sell-by dates.  She would be delighted to read that scientists have been able to produce potential scaffolds for bone grafts from beer production waste.

The waste contains phosphorous, silicon, magnesium and calcium – the main components of bone – making it an ideal candidate to develop treatments, coatings, grafts and implants for osteo-based trauma.

Osteoblasts grown on a 3D biomaterial matrix

Osteoblasts grown on a 3D biomaterial matrix

Reporting their work in RSC Advances, M. Angeles Martin-Luengo and co-workers investigated the residues from three different beer production plants in Spain to determine whether their origin would affect their suitability as biomaterial precursors.

The authors performed in vitro cell proliferation assays in the presence of the beer waste materials of different plants and found no discernable difference between the different wastes. No cytotoxicity was observed either, encouraging further investigations into their use in bone tissue engineering.

One of the major advantages of using beer production waste is the reduced cost in producing these medical aids compared with conventional materials. While commercial materials currently sell at $150 per gram, beer production waste costs around $40 per ton.

In short, these potential biomaterials are environmentally and economically friendly – I’ll drink to that! 

Interested in finding out more? Read the full article using the link below:

Preparation, characterization and in vitro osteoblast growth of waste-derived biomaterials 
M. Angeles Martin-Luengo and co-workers
RSC Adv.,2014, 4, 12630-12639

Sarah Brown Sarah Brown is a guest web-writer for RSC Advances. Sarah hung up her lab coat after finishing her PhD and post-doctorate in nanotechnology for diagnostics and therapeutics and now works in academic publishing. When not trying to explain science through ridiculous analogies, you can often find her crocheting, baking or climbing, but not all at once.
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Themed Collection on Cellular and Tissue Imaging

18 Jun 2014
By .

RSC Advances has recently published a themed collection: Cellular and Tissue Imaging – Luminescent Tags and Probes.

Cellular and tissue imaging provide critical tools for scientists to understand cellular functions, combat disease and develop better medicines. There are a broad range of molecules and compounds that are effective in this function, including fluorescent organic dyes, phosphorescent metal complexes, luminescent lanthanide compounds and nanoparticles.

The themed collection features articles showcasing the very latest research from this emerging field and is Guest Edited by Professor Suning Wang (Queen’s University, Canada) and Professor J. Gareth Williams (University of Durham, UK).

Highlights in the collection include comprehensive reviews on fluorescent indicators for imaging biological Zn ions (Professor Lei Zhu, Florida State University, USA) and carbon-based quantum dots for fluorescence imaging of cells and tissues (Professors Sheng-Tao Yang, Southwest University for Nationalities, China and Ya-Ping Sun, Clemson University, USA).

Some articles in the collection feature supplementary videos, including this video of a pollen root stained with an emissive europium complex from a paper by Professor David Parker (Durham University):

Links to all the articles can be found on the themed collection landing page

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Super strong hydrogel

12 Jun 2014
By .

Researchers from China have accidently discovered a super strong, super stretchy hydrogel, which has the potential to be used in tissue engineering.

Originally developed in the 1950s when Otto Wichterle and Drahoslav Lim invented soft contact lenses, supramolecular hydrogels are gel-like polymers that can absorb water. Akin to natural soft tissue, their networks are held together by reversible non-covalent interactions making them attractive materials for biomedical applications.

Hydrogels have good elasticity, but their mechanical weakness lets them down. Now, a new, stronger hydrogel with ‘amazing molecular properties’ has been created by Mingyu Guo and He Huang at Soochow University. The group were making water-dispersible polyurethane adhesives and noticed that strong stretchable gels formed when the samples were left in the air for a couple of days.

Interested? If so, read the full article at Chemistry World here

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Microbes reduce coal’s carbon footprint

11 Jun 2014
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Written by Rachel Purser-Lowman for Chemistry World

bacteria on coalWith energy demands rising and the increasing importance of low-carbon technologies, scientists in Canada are investigating the microbial conversion of coal into methane, to find a way that coal, especially low grade unmineable coal, can be used, whilst minimising its environmental impact.

Methane, the primary constituent of natural gas, releases significantly less carbon dioxide, when burned, than coal. Biological generation of methane in a coal seam results from microbial activity that starts during the early stages of coal formation.

Increased pressure and heat eventually destroys the microbes, but secondary methane production can occur when meteoric water infiltrates the cooled coal, bringing new microbes and nutrients.

Interested? If so, read the full article at Chemistry World here!

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