Sep 13, 2015

This Week in Nano Week 37 (Sept 7th-Sept 13th)

This popular post making the rounds of social media this week entitled '10 Nanotech Breakthroughs You Should Know About'


For anyone teaching secondary school this is a great classroom resource on NanoSilver

Sep 6, 2015

This week in Nano Week 36 (Aug 31st-Sept 6th)


Fundamentals of Nanoelectronics: Basic Concepts

Professor Supriyo Datta’s new course Fundamentals of Nanoelectronics, Part B, Quantum Transport is a new eight week course beginning October 8, 2015 and will include:
Introduction to Tight-binding Method
Introduction to Non-Equilibrium Green Function (NEGF) Method
Application of NEGF to Problems in Quantum Transport
Introduction to Spin Transport

Part A of this course the basic concepts can still be found on edX as an archived course or as a self-paced offering on nanoHUB-U.

For a list of nano related courses available online check my blog post here.


For more reading about the nanoworld this week here are a few studies/reports worth checking out:




Aug 30, 2015

This week in Nano: Week 35 (August 24th-30th)

A paper published by ACS Science Central this week entitled 'Biological Responses to Engineered Nanomaterials: Needs for the Next Decade'  outlines in a comprehensive and concise manner four research needs in our strive for sustainable nanotechnology. These include:
1. Nanomaterial characterisation in real ('dynamic, complex') environments.
2. Real time measurements of nano-bio interactions 
3. Elucidation of nanomaterials modes of action in living systems 
4. In silico methods (computation and simulation) to provide information on dynamics of nanomaterials in complex environments .  

To quote 'Over 50,000 studies have now been published on the interaction of nanomaterials, both organic and inorganic, with cultured cells and whole organisms......these studies provide a plethora of data that inform us of potential mechanistic interactions of nanoparticles with cells. However, these studies have covered dozens of  different cell lines, either established or primary; the time of  nanomaterial exposure ranges from minutes to days; the nanomaterial doses applied can differ by 6 orders of magnitude, which can dramatically impact the molecular responses instigated in a system and the ultimate consequence of the exposure. Therefore, stating general conclusions about chemical, let alone nanomaterial, effects on living cells becomes difficult, complicating attempts to extrapolate from cellular data to whole organisms. Indeed, it is rare that a clear molecular pathway from nanomaterial to cellular response can be constructed. Yet, such molecular pathways, if properly understood, could serve as a means to predict the future impact of nanomaterials on living systems.....' 


   

Peer review: a flawed process at the heart of science and journals. The website Retraction Watch had an interesting post regarding 64 papers that have been retracted by Springer due to problems with the peer review process. No doubt this will have knock on effects in weeks to come. The website makes for some very interesting reading and is a must add to your daily website checklist! The very need for such a website points shows the defects with the current peer review process - bring on version 2.0!

Aug 23, 2015

This week in Nano: Week 34 (August 17th-August 23rd)



 
Carbon Nanofibers (source:10.1021/acs.nanolett.5b02427)
Carbon Nanofibers (CNFs) are cylindric nanostructures - they are gaining increasing interest from the research community due to their interesting thermal, electrical and mechanical property. They have numerous potential applications including development of novel materials with enhanced strength however their applications to date have been limited by the difficulty in manufacturing.


'Diamonds in the sky'- A much publicised paper out this week reports the conversion of atmospheric carbon dioxide into Carbon NanoFibers or as they put it in the paper published in NanoLetters 'high yield process for the electrolytic conversion of CO2, dissolved in molten carbonates, directly to CNFs at high rates using scalable, inexpensive nickel and steel electrodes' The paper is free access and can be viewed here. Although this is not a new concept and other publications have reported the ability to synthesise CNF in a similar manner the authors report that their method is more energy (time and cost) efficient thus if scalable holds a promise for an interesting carbon capture technique as well as offering a valuable source of CNF for industry.



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