Author Archive

Hot article: DNA hybridization quantitative sensing

Hot Article – out now

Read about how the application of a combined approach of evanescent nanometry and force spectroscopy using magnetic tweezers helps quantify the degree of hybridization of a single synthetic single-stranded DNA oligomer to a resolution approaching a single-base.

Quantitative high-resolution sensing of DNA hybridization using magnetic tweezers with evanescent illumination
Piercen M. Oliver, Jin Seon Park and Dmitri Vezenov
Nanoscale, 2011, Advance Article
DOI: 10.1039/C0NR00479K

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New Advisory Board member for Nanoscale

We welcome our newest Advisory Board member, Professor Hong-Bo Sun from Jilin University.

Hong-Bo Sun obtained BS and PhD degrees in electronics from Jilin University. After spending some time in Japan, he returned to Jilin University to become a full professor in 2005.

His research in the passed 10 years has been focused on laser micro-nanofabrication, particularly in exploring novel laser technologies including direct writing and holographic lithography, as well as their applications on microoptics, micromachines, microfluids, and microsensors.

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We welcome Wei Lu to our Editorial Board

Nanoscale is pleased to announce the appointment of a new co-Editor-in-Chief, Professor Wei Lu.

Wei Lu graduated in physics from Tsinghua University, Beijing, China, from where he moved to Houston, Texas to obtain a PhD from Rice University.

He is currently an Assistant Professor in Electrical Engineering and Computer Science, at the University of Michigan. His research interest lies in the application and fundamental understanding of nanostructures and nanodevices, including high-density memory and logic devices based on two-terminal resistive switches (memristors), and semiconductor nanowire based electronics.

Professor Lu will join Professors Bai, Niederberger, Stellacci and Wang in handling Nanoscale submissions. Welcome!



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Nanoparticles, graphene and electrocatalysis

Communication

Highly dispersed ultrafine Pt and PtRu nanoparticles on graphene: formation mechanism and electrocatalytic activity
C. Nethravathi, E. A. Anumol, M. Rajamathi and N. Ravishankar
Nanoscale, 2011, Advance Article, DOI: 10.1039/C0NR00664E


Ravishankar and colleagues demostrate a strategy for obtaining a high dispersion of ultrafine Pt and PtRu nanoparticles on graphene.
This new methodology opens up new possibilities for the preparation of graphene-based hybrids for applications in multifunctional nanoscale devices.

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In vitro studies of a potential bone substitute

Just published

Two-layer membranes of calcium phosphate/collagen/PLGA nanofibres: in vitro biomineralisation and osteogenic differentiation of human mesenchymal stem cells

N Hild, O D Schneider, D Mohn, N A Luechinger, F M Koehler, S Hofmann, J R Vetsch, B W Thimm, R Müller and W J Stark

Nanoscale, 2011, DOI: 10.1039/C0NR00615G, Advance Article

A study evaluating the in vitro biomedical performance of a potential biomaterial that mimics bone tissue.

The material, a bilayer made of  poly(lactide-co-glycolide), calcium phosphate and collagen, could have applications in treatment of bone defects with complex geometries as wound dressing material.

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Hot Communication: controlled nano-net fabrication

Hot Communication, just published

Controllable fabrication of soap-bubble-like structured polyacrylic acid nano-nets via electro-netting
Shangbin Yang, Xianfeng Wang, Bin Ding, Jianyong Yu, Jingfang Qian and Gang Sun
Nanoscale, 2011, DOI: 10.1039/C0NR00730G , Advanced Article

Bin Ding and colleagues report a novel process for the controlled preparation of large-scale polyacrylic acid (PAA) nano-nets: “electro-netting”.

Soap-bubble-like structured PAA nano-nets made up of interlinked ultrathin nanowires are controllably prepared in a one-step process.

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More Advanced Articles

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Nanoscale Issue 11, just published!

Read now the latest issue of Nanoscale:

Themed Issue on Crystallization and Formation Mechanisms of Nanostructures

Guest Edited by Fiona C. Meldrum and Helmut Cölfen

This themed Issue illustrates current synthetic approaches for the production of nanostructures, and shows recent progress on the understanding of the formation mechanisms of these structures. Enjoy!

Growth of pentatwinned gold nanorods into truncated decahedra
Enrique Carbó-Argibay, Benito Rodríguez-González, Isabel Pastoriza-Santos, Jorge Pérez-Juste and Luis M. Liz-Marzán
Nanoscale, 2010, 2, 2377-2383. COVER ARTICLE

Formation of cobalt-Prussian Blue nanoparticles in a biopolymer matrix
Andrew M. Collins, Stephen Mann and Simon R. Hall
Nanoscale, 2010, 2, 2370-2372.

Gram-scale, low-cost, rapid synthesis of highly stable Mg–ACC nanoparticles and their long-term preservation

Jun Jiang, Min-Rui Gao, Yun-Hao Qiu and Shu-Hong Yu
Nanoscale, 2010, 2, 2358-2361. INSIDE COVER

Impact of the colloidal state on the oriented attachment growth mechanism
Cleocir José Dalmaschio, Caue Ribeiro and Edson Roberto Leite
Nanoscale, 2010, 2, 2336-2345.

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A bright future for biological imaging with fluorescent nanoparticles

Nanoscale’s new Publishing Editor Philip Howes, talks about a recent article on conjugated polymer nanoparticles published in the journal…

This month, a Nanoscale Feature Article presents a very interesting account of recent investigations into a novel type of fluorescent nanoparticles.

Read the Feature Article now for free:
Amplified energy transfer in conjugated polymer nanoparticle tags and sensors
Zhiyuan Tian, Jiangbo Yu, Changfeng Wu, Craig Szymanski and Jason McNeill
Nanoscale, 2010, 2, 1999-2011

Conjugated polymers are a fascinating class of material which combine the electrical behaviour of metals with the ease of processing of plastics. These organic molecules exhibit semiconducting behaviour as they possess a band structure similar to traditional inorganic semiconductors, like silicon, which allows the formation of excitons. For this reason, conjugated polymers are being used for the production of optoelectronic devices, such as LEDs and photovoltaics.

However, the use of conjugated polymers is not confined to device applications. As the polymers exhibit extremely high fluorescence brightness under UV excitation, they have been used to make fluorescent nanoparticles for use in biological imaging. The physical properties of conjugated polymer nanoparticles compare very well with the best known alternatives, such as quantum dots or dye-doped silica, and as they are relatively benign they appear to be promising for uses in biological fluorescence imaging studies where nanoparticle toxicity may be a concern. Furthermore, tuning of the colour of these nanoparticles is easily achieved by changing the type of polymer used, and as there is a vast range of conjugated polymers commercially available, emission across the visible spectrum is easily obtainable.

In this Feature Article, the authors review recent investigations into conjugated polymer nanoparticles with particular reference to optical and energy transfer phenomena, and applications in fluorescence based imaging and sensing applications. The underlying science of how fluorescent conjugated polymers behave in nanoparticle form is both fascinating and complex, and this is dealt with extremely well in this paper. As the authors explain, the development of conjugated polymer nanoparticles is still in its infancy and some important advances need to be made, such as reliable encapsulation and bioconjugation. However, the paper lays out many positive arguments as to why this type of particle should have a bright future in the development of fluorescent nanoparticles for biological imaging studies.

Philip Howes
Publishing Editor, Nanoscale


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Issue 10, out now

Nanoscale Issue 10, just published

Cover Article
Polyelectrolyte and carbon nanotube multilayers made from ionic liquid solutions
Takuya Nakashima, Jian Zhu, Ming Qin, Szushen Ho and Nicholas A. Kotov
Nanoscale, 2010, 2, 2084-2090

Highlight
Amplified energy transfer in conjugated polymer nanoparticle tags and sensors
Zhiyuan Tian, Jiangbo Yu, Changfeng Wu, Craig Szymanski and Jason McNeill
Nanoscale, 2010, 2, 1999-2011

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Physics Nobel Prize 2010 Web Collection: Graphene

Nobel Prize in Physics for 2010

Andre Geim and Konstantin Novoselov

“for groundbreaking experiments regarding the two-dimensional material graphene”


At Nanoscale we congratulate the new Nobel Laureates. To celebrate this great news for the nano-community, we have prepared a Web Collection on Graphene bringing together 17 high-quality graphene articles recently published in the journal.

Physics Nobel 2010 Web Collection: Graphene

Read the collection for free today

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