Nanomaterials, the European Commission, and functionality

A Feb. 17, 2015 news item on Nanowerk features a special thematic issue of Science for Environment Policy, a free news and information service published by the European
Commission’s Directorate-General Environment, which provides the latest environmental policy-relevant research findings (Note: A link has been removed),

Nanomaterials – at a scale of one thousand times smaller than a millimetre – offer the promise of radical technological development. Many of these will improve our quality of life, and develop our economies, but all will be measured against the overarching principle that we do not make some error, and harm ourselves and our environment by exposure to new forms of hazard. This Thematic Issue (“Nanomaterials’ functionality”; free pdf download) explores recent developments in nanomaterials research, and possibilities for safe, practical and resource-efficient applications.

You can find Nanomaterials’ functionality thematic issue here; the issue includes.

Several articles in this Thematic Issue illustrate how nanotechnology is likely to further revolutionise that arena, for example in capturing sunlight and turning it into usable electrical energy. The article ‘Solar cell efficiency boosted with pine tree-like nanotube needle’, describes how light collected from the sun can be bounced around many times inside a nanostructure to improve the chance of it exciting electrons, and ‘Nanotechnology cuts costs and improves efficiency of photovoltaic cells’ shows how electrons that are released can be captured by the large surface area of ‘nano-tree like’ anodes. Together these ensure that more of the sunlight is transformed to captured electrons and electrical power. The article ‘New energy-efficient manufacture of perovskite solar cells’ goes further, and suggests that the existing titanium dioxide that is currently used in solar cells could be replaced by perovskites, yielding quite dramatic improvements in energy conversion, at low device fabrication costs. …

The article ‘New quantum dot process could lead to super-efficient light-producing technology’ describes how anisotropic (elongated, non-spherical) indium-gallenium nitride quantum dots, or proximity to an anisotropic surface, can lead quantum dots to emit polarised light, potentially enabling 3D television screens, optical computers and other applications, at much lower cost. ‘The potential of new building block-like nanomaterials: van der Waals heterostructures’ and ‘Graphene’s health effects summarised in new guide’ touch on the possibility of engineering ‘building block-crystals’ by arranging different 2D nanostructures such as graphene into low dimension crystals, which allows us, for example, to lower the loss of energy in transmitting electricity. There are also quite novel directions underpinning ‘green nanochemistry’ — illustrated by the potential of silk-based electron-beam resists (in the article ‘Making nano-scale manufacturing eco-friendly with silk’) — to be eco-friendly, and have new functionalities.

… [p. 3 PDF]

In addition to highlighting various research areas by mentioning articles included the issue, the editorial makes its case for commercializing nanomaterials and for the European establishment’s precautionary approach to doing so,

European institutions and organisations have been at the forefront of efforts to ensure safe and practical implementation of nanotechnology. Significant efforts have been made to address knowledge gaps through research, the financing of responsible innovation, and the upgrading of the regulatory framework to render it capable of addressing the new challenges. There are solid reasons for institutional attention to the issues. Succinctly put, the passing around and modification of natural nanoparticles and macromolecules (for example, proteins) within our bodies is the foundation of much of life. In doing so we regulate and send signals between cells and organs. It is therefore appropriate that questions should be asked about engineered nanoparticles and how they interact with us, and whether they could lead to unforeseen hazards. Those are substantive issues, and answering them well will support the creative drive towards real innovation for many decades to come, and honour our commitments to future generations. [p. 4 PDF]

This special issue provide links for more information and citations for the research papers the articles are based on.

Leave a Reply

Your email address will not be published. Required fields are marked *