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Nanoscale Best Speaker Prize Winners

We are thrilled to announce the winners of the Nanoscale Best Speaker Prize at the “China-Singapore Young Chemist Forum”: Dr. Yuangang Zheng (Institute of Materials Research and Engineering, Singapore) and Prof. Hailin Peng (Peking University, China).

Nanoscale: Best Speaker Prize Winners

Nanoscale Best Speaker Prize winners at China-Singapore Young Chemist Forum

The Prizes were presented by the Chairs of the two Forums, Prof. Hua Zhang (Singapore) and Prof. Haoli Zhang (China), and were part of the 28th Chinese Chemical Society Congress which was held at Chengdu, China from the 13-16 April 2012.

Nanoscale will be awarding further Prizes over the summer so watch this space!

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Two in one technique for biological imaging

A UK based team has combined two methods into a new technique to investigate cell-substrate interactions in biomedical research.

The new technique, correlative light-ion microscopy (CLIM), combines both ion and fluorescence microscopy to obtain topographical and biochemical information for the same area of a sample.

The idea for the technique came to Molly Stevens and her colleagues at Imperial College London, when they observed unknown structures while conducting characterisation tests on human tissue samples. ‘We realised that there was no simple and efficient method to correlate structural and biochemical information at the micro and nanoscale. Therefore, the only way forward was to ingeniously combine our available technology and expertise in order to develop a new imaging method,’ she says.

Scanning electron microscopy (SEM), which provides structural information, normally requires the sample to be dried and coated with a protective layer, while fluorescence microscopy – used to obtain biochemical information – usually needs the sample to be hydrated. The two techniques would appear to be mutually exclusive, or at the very least time consuming to correlate if run separately.

Both SIM (left) and fluorescence (right) microscopies can be performed on the same sample

Both SIM (left) and fluorescence (right) microscopies can be performed on the same sample

The new method works because instead of SEM, scanning ion microscopy (SIM) is used. This involves a beam of gallium ions instead of electrons, which does not interfere with the fluorescence signal, a problem with traditional SEM. Non-contradictory sample preparation also means that both tests can be run on the same sample.

‘I believe that the developed approach is a major breakthrough in the field as it generates new and useful information that is otherwise difficult to obtain,’ comments Ali Khademhosseini, from Harvard Medical School and Brigham and Women’s Hospital, US, who studies micro and nanoscale technologies to control cellular behaviour. ‘I anticipate its widespread use in many biological applications where both SEM and fluorescence are needed.’

Stevens believes the work can be helpful across many fields including biotechnology, biomaterials and cell biology, particularly when looking at in situ cell interactions. ‘Considering that fluorescence microscopes can be found in virtually any laboratory and scanning ion microscopes are more and more common, CLIM may well find very wide applicability in biomedical laboratories,’ she says.

Correlative light-ion microscopy for biological applications
Sergio Bertazzo, Thomas von Erlach, Silvia Goldoni, Pelin L Çandarlıoğlu and Molly M Stevens
DOI: 10.1039/C2NR30431G

Read the original article at Chemistry World

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Nanoscale Issue 9 of 2012 out now!

The latest issue of Nanoscale is now online. You can read the full issue here:
OFC_09

The outside front cover is a Feature Article titled: Far-field photostable optical nanoscopy (PHOTON) for real-time super-resolution single-molecular imaging of signaling pathways of single live cells by Tao Huang, Lauren M. Browning and Xiao-Hong Nancy Xu.

IFC_09

The Communication featured on the inside front cover is: A zwitterion-DNA coating stabilizes nanoparticles against Mg2+ driven aggregation enabling attachment to DNA nanoassemblies by Thilak Kumara Mudalige, Oleg Gang and William B. Sherman.

 

 Issue 9 contains the following Review:

Also of interest are the below Feature Articles:

Fancy submitting an article to Nanoscale? Then why not submit to us today!

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Top 10 most-read Nanoscale articles in February

This month sees the following articles in Nanoscale that are in the top ten most accessed for February:

Molding the flow of light on the nanoscale: from vortex nanogears to phase-operated plasmonic machinery
Svetlana V. Boriskina and Björn M. Reinhard
Nanoscale, 2012, 4, 76-90
DOI: 10.1039/C1NR11406A 

Graphene edges: a review of their fabrication and characterization
Xiaoting Jia, Jessica Campos-Delgado, Mauricio Terrones, Vincent Meunier and Mildred S. Dresselhaus
Nanoscale, 2011, 3, 86-95
DOI: 10.1039/C0NR00600A

NR ICMAT Editorial
Hong Jin Fan and Qihua Xiong
Nanoscale, 2012, 4, 1410-1411
DOI: 10.1039/C2NR90011D

Recent Progress on Metal Core@Semiconductor Shell Nanocomposites as a Promising Type of Photocatalyst 
Nan Zhang, Siqi Liu and Yi-Jun Xu
Nanoscale, 2012, 4, 2227-2238 
DOI: 10.1039/C2NR00009A

Highly luminescent Ag+ nanoclusters for Hg2+ ion detection
Xun Yuan, Teik Jin Yeow, Qingbo Zhang, Jim Yang Lee and Jianping Xie
Nanoscale, 2012, 4, 1968-1971 
DOI: 10.1039/C2NR11999D 

Atomic Layer Deposition for Nanofabrication and Interface Engineering
Monan Liu, Xianglin Li, Siva Krishna Karuturi, Alfred Iing Yoong Tok and Hong Jin Fan 
Nanoscale, 2012, 4, 1522-1528
DOI: 10.1039/C2NR11875K 

Graphene oxide modified TiO2 nanotube arrays: enhanced visible light photoelectrochemical properties
Peng Song, Xiaoyan Zhang, Mingxuan Sun, Xiaoli Cui and Yuehe Lin
Nanoscale, 2012, 4, 1800-1804 
DOI: 10.1039/C2NR11938B 

The interplay of structure and optical properties in individual ZnO nanostructures
Megan M. Brewster, Xiang Zhou, Ming-Yen Lu and Silvija Gradečak 
Nanoscale, 2012, 4, 1455-1462 
DOI: 10.1039/C2NR11706A 

Li Ion Battery Materials with Core–Shell Nanostructures 
Liwei Su, Yu Jing and Zhen Zhou 
Nanoscale, 2011, 3, 3967-3983
DOI: 10.1039/C1NR10550G 

The Effect of Nanowire Length and Diameter on the Properties of Transparent, Conducting Nanowire Films 
Stephen M. Bergin, Yu-Hui Chen, Aaron R. Rathmell, Patrick Charbonneau, Zhi-Yuan Li and Benjamin J. Wiley
Nanoscale, 2012, 4, 1996-2004 
DOI: 10.1039/C2NR30126A

Why not take a look at the articles today and blog your thoughts and comments below.

Fancy submitting an article to Nanoscale? Then why not submit to us today!

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Nanoscale Issue 8 of 2012 out now!

The latest issue of Nanoscale is now online. You can read the full issue here:

OFC_08

The outside front cover features an article on Dense and vertically-aligned centimetre-long ZnS nanowire arrays: ionic liquid assisted synthesis and their field emission properties by Shimou Chen, Liang Li, Xi Wang, Wei Tian, Xuebing Wang, Dai-Ming Tang, Yoshio Bando and Dmitri Golberg.

IFC_08

Microfluidic fabrication of cationic curcumin nanoparticles as an anti-cancer agent is the Communication highlighted on the inside front cover by Praseetha Prabhakaran, Luis Filgueira, K. Swaminathan Iyer and Colin L. Raston.

 

 

Issue 8 contains the following Feature articles:

Fancy submitting an article to Nanoscale? Then why not submit to us today!

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Nanoscale Issue 7 of 2012 out now

The latest issue of Nanoscale is now online. You can read the full issue here:

The outside front cover features a Communication article on Single-layer graphene sound-emitting devices: experiments and modeling by He Tian, Dan Xie, Yi Yang, Tian-Ling Ren, Yu-Feng Wang, Chang-Jian Zhou, Ping-Gang Peng, Li-Gang Wang and Li-Tian Liu.

Infrared colloidal lead chalcogenide nanocrystals: Synthesis, properties, and photovoltaic applications is the Review article highlighted on the inside front cover by Huiying Fu and Sai-Wing Tsang.

Fancy submitting an article to Nanoscale? Then why not submit to us today!

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Speeding up wound healing

Scientists in China have developed a material that reduces the time required for a skin wound to heal.

A range of research has been conducted into the promising biomedical applications of chitosan, as it can clot blood effectively. Bingan Lu and his colleagues at Lanzhou University have developed a method to combine the benefits of chitosan with graphene, which has been shown to have antibacterial properties. 

Lu’s team mixed graphene with chitosan-polyvinyl alcohol (PVA) nanofibres using electrospinning (a process in which an electrical charge is applied to draw very fine fibres from the solution). The chitosan nanofibres combined with the graphene, forming thin membranes. 

The team applied the membranes to small skin wounds. Lu says that the membranes ‘covered the wounds like a band aid and, usually, one wound only needed one graphene-chitosan-PVA membrane’. They found that after 10 days, the wounds were significantly more healed than those without the membrane. 

Graphene sheet on a hand

A membrane formed from chitosan, which clots blood effectively, and graphene, which is antibacterial, speeds up wound healing

Chunhai Fan, an expert in graphene materials at the Chinese Academy of Sciences, says that the work ‘shows a really interesting health application of graphene-based nanomaterials’ and adds that it ‘clearly shows that graphene-based antibacterial materials facilitate wound healing’.

To test the membrane further, Lu’s team used cell cultures to show that graphene is only detrimental to bacterial cells, and animal cells are unaffected. They suggest that this may be due to graphene transferring electrons through cell membranes. Bacterial cells are prevented from replicating by this process, as the electrons can reach the bacterial DNA, destroying it. Animal DNA is protected from the electrons by a second membrane. The team intends to investigate graphene’s antibacterial properties to confirm the mechanism.

Graphene-based composite materials beneficial to wound healing
Bingan Lu, Ting Li, Haitao Zhao, Xiaodong Li, Caitian Gao, Shengxiang Zhang and Erqing Xie
DOI: 10.1039/C2NR11958G

Read the original article at Chemistry World

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